city of florence, sc pee dee river water treatment plant ...€¦ · city of florence, sc pee dee...
TRANSCRIPT
City of Florence, SC
Pee Dee River Water Treatment Plant
HVAC Replacement
Specifications ISSUED FOR BID
June 2016
421 Wando Park Boulevard, Suite 210
Mount Pleasant, SC 29464
843-972-4542
COA No. C00402
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 1 June 2016
SECTION 15500
HVAC
PART 1 GENERAL
1.01 SCOPE OF WORK
A. These Sections and Drawings cover(s) the requirements of the HVAC Work to be performed
and shall not void any of the requirements specified under the General Conditions or General
Requirements.
B. The areas where work is to be accomplished are specified and shown in the following:
1. Specification Sections
15500 HVAC
15503 HVAC – Demolition
15520 HVAC – Electrical Requirements
15860 Fans
15990 Testing, Adjusting, and Balancing
2. Drawings
H-1 HVAC Symbols and Abbreviations
H-2 Existing Operations Building Equipment Level HVAC Plans
H-3 Existing Operations Building HVAC Demolition Plan
H-4 Existing Operations Building HVAC Modification Plan
H-5 Existing Operations Building HVAC Roof Plans
H-6 Existing Operations Building HVAC Enlarged Plan
HD-1 HVAC Schedules
HD-2 HVAC Details
C. The requirements specified herein shall be modified only if specified otherwise for particular
application in other Divisions.
D. This HVAC specification is incomplete without the information contained on the Drawings and
in the Schedules on the drawings.
E. Work included under the "Scope of Work" of this HVAC Section includes all labor, material,
equipment, tools and services necessary to furnish, deliver, unload, install, test and place in
satisfactory operation, the equipment, services and systems as called for under the HVAC
Section(s) including any incidental work not shown, or not specified but which can reasonably
be inferred as belonging to the various systems and necessary in good practice to provide
complete and fully operational systems. Cutting and patching is included in this Section and
shall be done as described in Division 1 unless otherwise indicated.
F. Equipment shall consist of the following:
1. Fans
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 2 June 2016
2. Split system units, heat pumps, air handling units, and filters
3. Packaged roof top air conditioning units and filters.
4. Control system panels and controllers.
G. The following work descriptions are not intended to in any way limit the above broad statement,
but are intended as a more specific mention of the most important items included therein.
1. For all Areas:
a. Contractor shall provide temporary air conditioning and/or ventilation systems as
required. Refer to the drawings and the requirements in Division 1.
b. All work done regarding refrigerant removal and replacement shall be in accordance
with all Federal, State and Local laws and regulations. This includes, but is not limited
to, evacuation, purging, and testing. All refrigerant shall be captured, and no
refrigerant shall be released to the atmosphere. Contractor shall provide all necessary
refrigerant as required to recharge the systems at the completion of the relocation, and
after the equipment is returned to its original location.
c. Coordinate salvage/disposal with the requirements of Section 15503 and the Owner.
2. Operations Building:
a. Remove existing air conditioning system AHU/ACCU-5, including all equipment,
controls, piping, wiring, etc. as shown on the Drawings.
b. Remove and exhaust fans gravity hoods as shown on the Drawings.
c. Remove existing control system components as shown on the Drawings.
d. Provide new toilet exhaust systems including all associated fans, controls, ductwork,
and air distribution devices.
e. Provide new split system air conditioning system AHU/ACCU-5, including all
associated equipment, controls, ductwork, air distribution devices, and piping.
f. Provide new laboratory area packaged roof top air conditioning system, including all
associated equipment, controls, ductwork, air distribution devices, and piping.
g. Provide new control system components as shown on the Drawings, including new
global controller, new VVT controllers, and new system controllers for new
AHU/ACCU-5, existing AHU/ACCU-4, new RTU-1, and existing boiler system.
H. Design Conditions
1. Outdoor Design Conditions
Summer: 96ºF Dry-bulb, 76ºF Wet-bulb
Winter 23ºF Dry-bulb
Approximate Heating Degree Days 2747
Approximate Cooling Degree Days 2190
Site Elevation (Approximate) 112 ft. Above Sea Level
2. Indoor Design Conditions
Space
Designation
Summer Space
Temp. °F
Outdoor Air
Vent.
Winter Space
Temp °F
Outdoor Air
Vent.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 3 June 2016
I. This Section is incomplete without the information contained in the HVAC equipment
schedules on the Drawings. Provide equipment of the type, size, capacity and arrangement as
shown on the Drawings and as scheduled. Equipment shall consist of the particular components
listed in the schedules in addition to those components normally required for the type of unit.
The order of component assembly will be as stated in the schedule. Particular attention must be
paid to the remarks and notes in the schedules and on the Drawings.
J. All ductwork, piping, and equipment shown on the Drawings is intended to be approximately
correct to scale, but figured dimensions and detailed drawings of the actual equipment furnished
shall be followed in every case. The Drawings shall be taken in a sense as diagrammatic. Size of
ductwork and piping are shown, but it is not the intent to show every offset or fitting, nor every
hanger or support, or structural difficulty that may be encountered. To carry out the intent and
purpose of the drawings all necessary parts to make a complete working system ready for use
shall be furnished without extra charge. The Contractor shall be responsible to coordinate the
system installation and routing with the work of all trades.
K. Furnish and install all HVAC Systems in accordance with all requirements of the International
Mechanical Code with Amendments, International Building Code with Amendments, all other
applicable codes and standards and the requirements of this specification.
1.02 RELATED WORK
A. Cutting and patching is included in Division 1, except for items specified herein.
B. Temporary, cooling, heating, electric power and lighting is included in Division 1.
1.03 SUBMITTALS
A. Submit, in accordance with Division 1, shop drawings and product data for the following:
1. Catalog cuts and data sheets for all equipment.
2. Design calculations for record purposes, signed and sealed by a professional engineer hired
by the Contractor as specified in 1.08, Engineering Services. Engineering services shall be
provided as required in Part 2.
3. Submit the following for the Automatic Temperature Control Systems:
a. Automatic control drawings with composite wiring diagrams, including bills of
material and descriptions of operation for all systems. Panel layouts and name plate
lists for all local and central panels. Data sheets for all control system components.
b. Control drawings with composite wiring diagrams, including bill of material and
description of operation for all systems. Drawings shall be prepared on a CAD system
that produces drawing files compatible with the current version of AutoCAD or
compatible version as required by the [Engineer] [Owner], and shall be provided on
magnetic/optical disk and as 8.5 by 11-inch or 11 by 17-inch PDF file drawings.
c. Panel layouts and nameplates lists for all local and central panels.
Operations
Building 75 ± 5°F
5 CFM/Person +
0.06 CFM/sq.ft. 68 ± 5°F
5 CFM/Person +
0.06 CFM/sq.ft.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 4 June 2016
d. Where an operator workstation is used, submittals shall include the screen graphics
and displays. Submittals shall be on 8.5 by 11-inch paper in color, and shall be as they
will be seen on the screen. Submittals shall indicate links from screen to screen. A
basic template indicating the screen formats shall be submitted and approved prior to
preparing the actual displays. This early submittal shall also include a listing of
expected screens. All screens shall be approved prior to system installation.
e. Data sheets for all control system components. When manufacturer's cut sheets apply
to a product series rather than a specific product, the data specifically applicable to the
project shall be highlighted or clearly indicated by other means. Each submittal piece
of literature and drawing shall clearly reference the specification and/or drawings that
the submittal is to cover. General catalogs shall not be accepted as cut sheets to fulfill
submittal requirements.
f. Provide a recommended list of spare parts to be provided.
g. Software licensing and user agreements shall be submitted for approval with the shop
drawings for the equipment using the software. The submittal shall be a copy of the
final agreement document that is to be signed.
h. Control sequence: written narrative that is coordinated with the control drawings.
i. Complete listing of deviations from the system as specified.
j. Training manuals for each of the subjects required to be covered in training, including
teaching plans, duration of each class, and maximum size of each class, shall be
submitted for review a minimum of three months prior to starting training. The
manuals shall be broken down into the material required for each of the various
courses. The submittal shall also include supplemental materials that will be used in
the class and copies of overheads or slides if they are not in the preceding material.
4. Complete damper schedules for damper submittals including the following for each type or
model of damper to be furnished for the project: materials of construction for blades,
frames, bearings, linkages and seals; flow and leakage characteristics; typical operating
torque requirements or characteristics; options to be furnished; general installation and
maintenance instructions. Damper schedules shall include damper type; unit served;
damper service; damper size; duct size; drive linkage location; installation arrangement
(flanged or in duct) and damper operator type.
5. All fans, submit in accordance with Division 1, all data on the fan schedules. In addition
the submittal shall include catalog data, fan data sheets with a description of the proposed
fan, fan size, type, arrangement, materials of construction, weight, motor horsepower,
motor type, power supply, and frame size. Provide catalog data and selections for vibration
isolators, include materials of construction. For belt drive equipment; provide drive data
indicating the sheave sizes, belts size, number and length. Each submittal shall include
pertinent equipment dimensional data, fan performance (operating data) information, and a
performance curve showing the fan operating point and range. Minimum curve size shall
be 8-in by 6-in. Faxed copies of curves are not acceptable. A list of accessories to be
furnished shall be included on each submittal. Copies of operating and maintenance
manuals shall be submitted. Significant dimensional differences between the specified
equipment and the proposed equipment shall be noted on the equipment submittal. The
contractor shall provide data to show the dimensionally different equipment will fit within
the space and still provide suitable clearance. Where corrosion resistance is required,
provide conformation of material suitability for the specified service.
6. For all air handling units, submit, in accordance with Division 1, the following:
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 5 June 2016
a. Unit data sheets; to include catalog data, a description of the proposed unit, size, type,
arrangement, and materials of construction.
b. For belt drive equipment, provide drive data indicating sheave sizes, belt size, number
and length.
c. Each submittal shall include pertinent equipment dimensional data, heating and
cooling coil operating data. Submit, in accordance with Division 1, all data and the
unit schedules. The submittal shall include fan data sheets with a description of the
proposed fan, fan size, type, arrangement, materials of construction, weight, motor
horsepower, motor type, power supply, and frame size. Provide catalog data and
selections for vibration isolators, include materials of construction. For belt drive
equipment; provide drive data indicating the sheave sizes, belts size, number and
length. Each submittal shall include pertinent equipment dimensional data, fan
performance (operating data) information, and a performance curve showing the fan
operating point and range. Minimum curve size shall be 8-in by 6-in. Faxed copies of
curves are not acceptable. A list of accessories to be furnished shall be included on
each submittal. Copies of operating and maintenance manuals shall be submitted.
Significant dimensional differences between the specified equipment and the proposed
equipment shall be noted on the equipment submittal. The Contractor shall provide
data to show the dimensionally different equipment will fit within the space and still
provide suitable clearance. Where corrosion resistance is required, provide
conformation of material suitability for the specified service.
d. For heating sections, provide information on type of heating, air entering and leaving
conditions, air pressure drop, heating media entering and leaving conditions and flow
or consumption, and pressure drop. Provide size, type, arrangement, materials of
construction, and operating weight.
e. For cooling sections, provide information on type of cooling, air entering and leaving
conditions, air pressure drop, cooling media entering and leaving conditions, flow, and
pressure drop. Provide size, type, arrangement, materials of construction, and
operating weight.
f. For condensing sections provide information on number and type of compressors,
type of refrigerant and refrigerant charge, and controls provided and operating weight.
Provide electrical data for power and controls. For condensing coils, provide air
entering and leaving conditions, air pressure drop, size, type, arrangement, and
materials of construction.
g. Pertinent data on standard filters: types and sizes, quantity of modules required for each
filter type, efficiency ratings performance data and manufacturer catalog cutsheets.
h. List of accessories to be furnished shall be included on each submittal.
i. Provide a recommended list of spare parts to be provided.
7. Where called for on the schedules, provide certified test data for the fan.
8. Detailed equipment, ductwork and piping layout drawings; minimum scale 1/4-in =
1-ft-0-in for interior systems and equipment, dimension clear service spaces for motors and
drives, filter, coils and spacer section access doors, and ductwork access panels and doors.
(Site layout drawings and roof plans showing HVAC equipment and systems may be
prepared and submitted at scales smaller than 1/4-in = 1-ft-0-in, subject to Engineer's prior
approval.)
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 6 June 2016
9. Standard shop and field installation details for transitions, elbows, takeoffs, discharge
nozzles, turning vanes, access panels and doors, volume control and splitter dampers and
extractors.
10. Piping and appurtenances, materials and joining methods. Pipe hanger materials and
methods.
11. Ductwork materials, joining methods, reinforcing and material gauges. Where options are
allowed by SMACNA, the proposed option shall be clearly defined. Indicate proposed
materials and methods for ductwork and equipment hangers.
12. Prepare dimensional comparisons between proposed equipment and scheduled equipment
when the proposed equipment is dimensionally larger than that scheduled. Do not propose
dimensionally larger equipment from an alternate manufacturer for installation in confined
areas, or when the installation of alternate equipment will result in reduction of service
access below that recommended by the manufacturer.
13. Prepare layouts showing size, arrangement, and routing of field fabricated refrigerant
piping for split-systems and air handling units with remote condensers. Include a letter
from the AC system manufacturer indicating their approval of the proposed sizing and
routing.
14. For units that will be shipped exposed, provide a description of the protective packaging
that will be used during transit.
15. When special hangers, supports, anchors, or hold downs are required that are not covered
by standards provide signed and sealed calculations and details for record purposes.]
16. All submittals shall contain a statement that Section 15500 and all other referenced
Sections have been read and complied with. The certification statement shall be made by
all of the following that are applicable; the Contractor, sub-contractor and the vendor. The
statement shall be an individual statement for each party involved, and shall be included
with every submittal and resubmittal.
17. Submit air system testing, adjusting and balancing reports for review and approval.
18. Operation and Maintenance Data
a. Submit to the Engineer as provided in Division 1, Operating and Maintenance
Manuals. The following information shall be considered a minimum. Where
applicable, provide information required for specific pieces of equipment.
1) Personnel familiar with the operation and maintenance of the specific
information shall prepare manuals.
2) Equipment shall be identified with the Engineers Equipment Numbers and
Identification as shown in the Schedules and on the Drawings.
b. Contents - Each volume shall contain the following minimum contents:
1) Installation including instructions for unpacking, installing, aligning, checking
and testing. Foundation data, allowable piping loads, and electrical design shall
be included.
2) Operating Instructions to provide pre-operational checks, start up and shut down,
and description of all control modes. Include emergency procedures for all fault
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 7 June 2016
conditions and actions to be taken for all alarms. Procedures for long term
storage shall be included.
3) Maintenance shall include preventive, and corrective. Schedules for test of other
functions are to be included. Provide a list of tools required to service the
equipment. Trouble shooting instructions to include a trouble-shooting guide
shall be included.
c. Spare Parts List
d. Shop Drawing Data to include performance curves, data sheets, flow diagrams, wiring
diagrams, and descriptive drawings.
19. Submit the following for each insulation by System: manufacturer's product data showing
conformance with this Section for all required insulation, jackets, covers, coatings,
adhesives, fasteners, supports and appurtenances; complete manufacturer's instructions for
installation of all required items.
20. All materials deliveries must have accompanying manufacturer's certifications attesting to
satisfactory results of product testing showing conformance with this Section.
21. Provide a recommended list of spare parts to be provided
22. In general, corrections or comments or lack thereof, made relative to submittals during
review shall not relieve the Contractor from compliance with the requirements of the
drawings and specifications. Submittals are for review of general conformance with the
design concepts of the project and general compliance with the contract documents. The
Contractor is responsible for the final design conforming and correlating all quantities and
dimensions, selecting fabrication processes and techniques of construction, coordinating
the work of all trades, and performing the work in a safe and satisfactory manner.
1.04 REFERENCE STANDARDS
A. These standards shall be considered as minimum requirements. This is a general list and not all
standards listed are necessarily referenced elsewhere in this Section. Specific requirements of
this Section and/or Drawings shall have precedence. In case of conflict between published
requirements, the Engineer shall determine which is to be followed.
B. Abbreviation and the title of Federal, State and industry standards, technical societies,
associations and institutes and other organizations which may be used are as follows:
1. Associated Air Balance Council (AABC)
2. American Conference of Governmental Industrial Hygienists (ACGIH)
3. Air Diffusion Council (ADC)
4. American Bearing Manufacturers Association (ABMA)
5. Air Movement and Control Association (AMCA)
6. American National Standards Institute (ANSI)
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 8 June 2016
7. Air Conditioning and Refrigeration Institute (ARI)
8. American Society of Heating, Refrigerating and Air Conditioning Engineers (ASHRAE)
9. American Society of Mechanical Engineers (ASME)
10. American Society for Testing and Materials (ASTM)
11. Factory Mutual (FM)
12. Institute of Electrical and Electronic Engineers (IEEE)
13. National Institute of Standards and Technology (NIST)
14. National Environmental Balancing Bureau (NEBB)
15. National Electrical Code (NEC)
16. National Electrical Manufacturers Association (NEMA)
17. National Fire Protection Association (NFPA)
18. Occupational Safety and Health Administration (OSHA)
19. Sheet Metal and Air Conditioning Contractors National Association (SMACNA)
20. Underwriters Laboratories (UL)
C. Where reference is made to one of the above standards, the revision in effect at the time of bid
opening shall apply.
1.05 QUALITY ASSURANCE
A. Contractor shall comply with the following criteria:
1. Has been regularly engaged in the installation of Mechanical (HVAC) systems.
2. Has performed work of similar or greater complexity on at least three (3) projects within
the last five (5) years. Submit documentation demonstrating required experience.
3. Submit a minimum of two references for projects of similar or greater complexity.
4. Submit resumes of key personnel to be utilized on this project.
B. Provide single source supplier/installer responsibility for the following systems or services:
1. ATC Equipment
2. Thermal Insulation
3. Testing and Balancing
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 9 June 2016
4. Air Conditioning Equipment
5. Fans
C. Provide single source supplier/installer responsibility for systems where specified in other
related Sections.
D. For the Automatic Temperature Control Systems:
1. Manufacturer shall have a branch office facility within 200 miles of the project for at least
five years, with technical staff and complete spare parts inventory and test and diagnostic
equipment to keep systems in operation 24 hours per day, seven days per week.
Manufacturer shall have emergency service available in the local area for temperature
control systems for which they are currently performing on-call emergency service 24
hours per day, seven days per week with a maximum response time of four hours.
2. Automatic temperature control contractor shall have in their direct employ personnel
capable of detailed engineering, coordination, drafting, procurement, expediting,
construction scheduling, testing, inspection, installation, startup, calibration, and
commissioning.
3. Equipment to be furnished under this Section shall be essentially the standard product of
the manufacturer. Where two or more units of the same class of equipment are required,
they shall be the product of a single manufacturer; however, all component parts of the
system need not be products of one manufacturer.
4. Equipment furnished for installation under this Section shall be tested at the factory as
standard with the manufacturer of the equipment.
5. Unless otherwise indicated, controls shall maintain space temperatures within plus or
minus one degrees F, and space relative humidity within plus or minus five percent of their
set points.
6. Inspection by the Owner's representative, or failure to inspect, shall not relieve Contractor
of responsibility to provide materials and perform the work in accordance with the
documents.
7. Owner and Engineer reserve the right to sample and test any materials after delivery, and to
reject components represented by a sample that fails to comply with the specified
requirements.
8. ATC installer shall be under the direct employ of the automatic temperature control
manufacturer or shall be authorized by the ATC equipment manufacturer to furnish and
install the particular automatic temperature control equipment required for this project.
9. ATC installer shall be fully licensed at the time of bid to do business in the job site area.
Wholesalers, contractors, franchisers, dealers, or any firm whose principal business is not
that of installing automatic temperature controls shall not be acceptable.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 10 June 2016
10. Materials and equipment used shall be standard components, regularly manufactured for
this and/or other systems, and not custom designed especially for this project. Systems and
components shall have been thoroughly tested and proven in actual use.
E. Services of Manufacturer's Representative
1. Provide services of a manufacturer's service engineer or test engineer, as required in
Division 1, specifically trained on type of equipment supplied or service provided. Submit
qualifications of service engineer for approval. Man-day requirements listed below are
exclusive of travel time and do not relieve Contractor of obligation to provide sufficient
service to place equipment in satisfactory operation.
a. Automatic Temperature Controls - Operation and maintenance instructions. 2
Man-days.
b. Testing and Balancing - Spot check HVAC system flows and system inspection
during the first year of operation at Owner's request exclusive of repair, malfunction,
or other trouble-shooting service calls. 2 Man-days.
c. Air Conditioning Systems. Start-up and Operations and maintenance instructions. 2
Man-days.
d. Exhaust fans. Start-up and Operations and maintenance instructions. 1 Man-days.
F. The insulation materials to be furnished under this section shall be essentially the standard
products of manufactures regularly engaged in the manufacture of insulation systems.
G. Several manufacturers are indicated as acceptable for each type of insulation in these
specifications. The insulation sub-contractor shall be responsible for determining that all
insulation supplied for the project is suitable for installation in the spaces indicated. The
insulation sub-contractor shall also insure that all materials used are compatible and in
compliance with applicable codes and standards.
H. All equipment of a given type included in this section shall be furnished by or through a single
manufacturer or as specified on the schedules
I. Inspection by the Engineer’s representative or failure to inspect shall not relieve the Contractor
of responsibility to provide materials and perform the work in accordance with the documents.
J. The Owner and Engineer reserve the right to sample and test any materials after delivery and to
reject all components represented by a sample that fails to comply with the specified requirements.
K. An authorized representative of the manufacturer shall perform the initial startup of the
equipment. The Owner and Engineer shall witness startup. The use of local sales representatives
to perform this work is not acceptable, unless the manufacturer provides documented evidence
that the sales representative has been specifically trained for this work.
L. All rotating parts of equipment shall be statically and dynamically balanced at the factory.
1.06 DELIVERY, STORAGE AND HANDLING
A. All materials shall be inspected for size, quality and quantity against approved shop drawings
upon delivery.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 11 June 2016
B. Delivery schedule of all equipment shall be coordinated with the Contractor. Equipment ready
for shipment prior to the agreed on shipping date shall be stored without cost to the Owner by
the manufacturer.
C. All materials shall be suitably packed for shipment and long term storage. Each package shall
be labeled to indicate the project and the contents of each package. Where applicable,
equipment numbers shall be marked on the container.
D. All equipment shipped that is exposed such as on a flatbed truck shall be protected during
transit. The equipment shall be protected from moisture, road salt, dirt and stones or other
materials thrown up from other vehicles. Electrical components shall be protected as above, but
with special attention to moisture. The method of shipment protection shall be defined in the
submittals.
E. Instruction for the servicing and startup of equipment in long term or prolonged storage shall
accompany each item.
F. All materials shall be stored in a covered dry location off of the ground. When required to
protect the materials they shall be stored in a temperature-controlled location.
1.07 COORDINATION
A. The Drawings indicate the extent and general arrangement of the systems. If any departures
from the drawings or specifications are deemed necessary, details of such departures and the
reasons therefore shall be submitted as soon as practical for review. No such departures shall be
made without the prior written concurrence of the Engineer.
B. The Contractor shall coordinate the location and placement of all concrete inserts and welding
attachments with the structural engineer.
C. The Contractor shall assume full responsibility for coordination of the HVAC systems,
including; scheduling, and verification that all structures, ducts, piping and the mounting of
equipment are compatible.
D. The Contractor shall not install any equipment or materials until the Owner and Engineer have
approved all submittals. If any equipment or materials are installed prior to approval of the
submittals, it shall be at the Contractor's risk.
1.08 ENGINEERING SERVICES
A. When engineering services are specified to be provided by the Contractor, the Contractor shall
retain a licensed professional engineer to perform the services. The engineer shall be licensed at
the time the work is done and in the State in which the project is located. If the State issues
discipline specific licenses, the engineer shall be licensed in the applicable discipline. In
addition, the engineer shall be experienced in the type of work being provided.
B. All work is to be done according to the applicable regulations for professional engineers, to
include signing, sealing and dating documents. When submittals are required by a professional
engineer, in addition to state required signing and sealing, a copy of the current wallet card or
wall certificate indicating the date of expiration shall be included with the submittal.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 12 June 2016
1.09 UL LISTING
A. All materials, equipment, panels, and system components of the HVAC system must be UL
Listed. If factory UL listing of all system components is not available, the manufacturer must
include in their scope of supply, ALL expenses associated with getting the complete installation
UL field labeled, by a UL representative. This includes all hourly or per diem costs and
expenses of the UL representative, all costs to bring the system or specific components, within
UL field labeling compliance, and all costs of the manufacturer’s representative.
1.10 SPARE PARTS
A. Spare parts shall include all special items on the manufacturer's standard list of spare parts
B. In addition to special items, the following spare parts shall be provided:
1. Furnish all special tools required for normal operation and proper servicing of the
equipment.
2. Spare parts shall include all items on the manufacturer's standard list of spare parts and the
following for each unit:
a. One complete set of drive belts for each piece of belt driven equipment
b. One complete seal for each pump using a seal.
c. One complete set of gaskets for each unit.
3. Provide a minimum of 1 or 5 percent of the total units rounded to the next full unit
whichever is greater for each size and rating of the following components.
a. Thermostats
b. Control relays
c. Damper operators
d. Control transmitters
e. Control transformers
4. Provide a minimum of 4 or 10 percent of the total units rounded to the next full unit
whichever is greater for each size and rating of the following components.
a. Panel light bulbs
b. Fuses
C. Pack spare parts in containers suitable for extended storage without deterioration of the parts.
Containers shall be clearly labeled designating contents, pieces of equipment for which intended
and equipment identification numbers.
1.11 MAINTENANCE
A. Maintain and service all equipment and systems until the particular equipment or the system has
been accepted by the Owner.
B. Maintenance shall include compliance with the manufacturers operating and maintenance
instructions as well as periodic cleaning or replacement of air handling system filters.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 13 June 2016
C. Compile records of all maintenance and lubrication work performed on Owner or Contractor
furnished equipment. Maintain records at the construction or installation site and make available
at all times for review by the Owner or Engineer. At the request of the Owner or Engineer
submit copies of these records to the Owner for information and/or review.
D. Provide all special tools required for normal maintenance. Tools shall be packaged in a steel
case, clearly and indelibly marked on the exterior to indicate equipment for which tools are
intended.
E. Provide to the Owner a list of all spare and replacement parts with individual prices and location
where they are available. Prices shall remain in effect for a period of not less than 1 year after
start-up and final acceptance.
1.12 WARRANTY
A. Refer to Division 1 for warranty requirements.
B. In the event that the equipment or components fail to perform satisfactorily at any time within
the Defects Liability Period, the Contractor shall replace it with one capable of operating as
specified, and shall comply with the requirements in Division 1. Contractor shall be responsible
for costs incurred in furnishing and installing the replacement equipment.
1.13 DEFINITIONS
A. Particular terminology used under this Section is defined as follows:
1. Traffic Level and Personnel Level - Areas, including process areas, equipment rooms,
boiler rooms and other areas where insulation may be damaged by normal activity and
local personnel traffic. Area extends to 8-ft above floor, walkways, platforms and stairs,
and horizontally 3-ft beyond the edge of walkways, platforms, and stairs.
2. Exposed Piping and Ductwork - Piping and ductwork visible from the floor level and
includes all piping and ductwork in equipment rooms, boiler rooms, etc.
3. Concealed Piping and Ductwork - Piping and ductwork not visible from the floor level and
includes piping and ductwork above hung ceilings and in shaftways.
4. Supply Air Ductwork - Ductwork carrying air from a fan or air handling unit to the space
or spaces to which it will be introduced. This air may have been heated or cooled or in the
case of ventilation system the air would be neither heated nor cooled. Supply air ductwork
extends from the fan or air handling unit to the registers, grills or diffusers at the end of the
ductwork.
5. Return Air Ductwork - Ductwork carrying air from the space it was supplied to back to a
fan or air handling unit. Return air ductwork extends from the registers or grills at the end
of the ductwork to the air handling unit or connection with an outdoor air intake duct.
6. Exhaust Air Ductwork - Ductwork carrying air from a space to a fan and then to be
discharged to the outdoors. Exhaust air ductwork extends from the registers of grills at the
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 14 June 2016
end of the ductwork to the fan. From the fan exhaust ductwork extends to the discharge
point, exhaust air damper, or exhaust air plenum, whichever comes first.
7. Relief Air Ductwork - Ductwork carrying air from a space without a fan to be discharged
to the outdoors. Relief air ductwork extends from the registers or grills at the end of the
ductwork, to the discharge point, relief air damper, or relief air plenum, whichever comes
first.
8. Outdoor Air Ductwork - Ductwork carrying untreated air from the outside to a fan or air
handling unit. Outdoor air ductwork starts at the intake point, outdoor air damper, or
outdoor air plenum, whichever comes last. The outdoor air ductwork extends to the fan, air
handling unit, or connection with a return air duct, whichever comes first.
9. Mixed Air Ductwork - Ductwork that can carry either return air or outdoor air or a
combination of both. Mixed air ductwork starts at the connection of the return air and
outdoor air ducts and extends to the fan or air handling unit.
10. Outdoor Air Plenum - A plenum that extends from the opening in the skin of the structure
to the outdoor air duct. If the outdoor air damper is directly at the intake or there is no
outdoor air damper, the plenum will extend to the first size reduction. If the outdoor air
damper is not at the intake, the plenum will extend to the outdoor air damper.
11. Exhaust Air Plenum - A plenum that extends from the opening in the skin of the structure
to the exhaust air duct. If the exhaust air damper is directly at the discharge or there is no
exhaust air damper, the plenum will extend from the last size reduction. If the exhaust air
damper is not at the discharge, the plenum will extend to the exhaust air damper.
12. Relief Air Plenum - A plenum that extends from the opening in the skin of the structure to
the relief air duct. If the relief air damper is directly at the discharge or there is no relief air
damper, the plenum will extend from the last size reduction. If the relief air damper is not
at the discharge, the plenum will extend to the relief air damper.
13. Ventilated Spaces - Areas supplied with outdoor air on a continuous or intermittent basis.
The outdoor air may be heated and/or cooled or untreated.
14. Heated Spaces - Areas where heat is supplied to maintain a minimum temperature during
the heating season.
15. Unheated Spaces - Areas where heat is not applied and there is no minimum temperature
during the heating season.
16. Conditioned Spaces - Areas that are provided with heating and mechanical cooling.
17. Non-Conditioned Spaces - Areas that are not provided with mechanical cooling.
18. Indoor Piping - Piping within a building that is not exposed to the weather.
19. Outdoor Piping - Piping that is not within a building and which is exposed to the weather.
20. Indoor Ductwork - Ductwork within a building that is not exposed to the weather.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 15 June 2016
21. Outdoor Ductwork - Ductwork that is not within a building and is exposed to the weather.
22. Hot Ductwork - Ductwork carrying air with a temperature above the surrounding space
temperature.
23. Cold Ductwork - Ductwork carrying air with a temperature below the surrounding space
temperature.
24. Hot/Cold Ductwork - Ductwork carrying air with a temperature that can be either above or
below the surrounding space temperature.
25. Thermal Conductivity - The rate of heat flow through unit area of a homogeneous
substance under the influence of unit temperature gradient in the direction perpendicular to
the area. Units-BTU per (hour)(sq ft)(degrees F temp. difference)(per inch thickness).
26. Flues/Stacks/Breeching - Ductwork carrying products of combustion to atmosphere.
PART 2 PRODUCTS
2.01 ELECTRICAL EQUIPMENT
A. Electric Motors
1. Electric motors in NEMA frame sizes shall conform to the requirements of the National
Electrical Code and Section 15520, unless otherwise specified herein.
2. The motor manufacturer shall confirm that motors used to power equipment are provided
with bearings that will provide a bearing life equal to the driven equipment or better.
Confirmation shall be included with shop drawing submittal.
3. Motors will be selected to be non-overloading over the entire operating range of the
equipment. A safety factor of 25 percent will be added to all motors up to and including 50
horsepower. A safety factor of 15 percent will be added to all motors over 50 horsepower.
Motors indicated on the schedules are to be considered a minimum. This sizing is not to
limit compliance with the above requirements
B. Electrical Equipment
1. Electrical equipment which is furnished under this Section shall meet the requirements
specified on the Drawings and in Section 15520:
a. Disconnect switches, motor starters and combination motor starters (starters with
disconnecting means and short circuit protection) shall be as specified in Section
15520.
b. Raceways, boxes, fittings and supports shall be as specified in Section 15520.
c. Wires and cables shall be as specified in Section 15520.
C. Electrical enclosures and panels to include automatic temperature control panels and
components shall be as specified in Section 15520.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 16 June 2016
D. Where noted in the HVAC equipment schedules, or when shown on the Drawings, provide fan
speed control switches and integral unit thermostats.
2.02 SEISMIC RESTRAINTS
A. Seismic restraints shall be provided for all ductwork, piping, equipment, and electrical
components as required by applicable codes. All seismic criteria and design shall comply with
the International Building Code with Amendments.
B. Materials of construction for seismic supports shall be the same as those specified for
equipment supports and hangers, and duct and pipe hangers. All bolts shall be stainless steel
regardless of the specified support material.
C. Restraints shall be selected from Tables for Seismic Design Category D, Occupancy
Category/Use Group IV, with an importance factor of 1.0 for all components.
D. The contractor shall retain a professional engineer to provide seismic loadings and designs of
seismic restraints. This will include but not be limited to the following:
1. Provide seismic loadings to the vibration isolation supplier based on actual equipment
being used to allow the proper selection of vibration isolators.
2. Provide sizing of bolts for attachment of non-vibrating equipment to the structure based on
the actual equipment being used.
3. Provide design of required additional bracing for equipment when vibration isolators or
bolts are not adequate to withstand seismic forces.
4. Provide design of bracing for all suspending equipment.
5. Provide design of bracing for all piping and ductwork.
6. Where piping or ductwork is subject to thermal expansion, the loads caused by the thermal
expansion and contraction shall be included in the design of the restraint bracing.
E. Signed and sealed calculations and details shall be submitted for record purposes.
2.03 EQUIPMENT VIBRATION ISOLATOR AND MOUNTINGS
A. General
1. Unless otherwise specified in this Division all machinery or vibrating mechanical
equipment shall be isolated from the building structure by vibration isolators with a
minimum deflection as specified. Operating equipment that can transmit objectionable
vibration and noise must be installed with special types of vibration isolators such as
flexible connectors to ductwork, piping and wiring. In more critical areas and under
particular conditions, additional vibration isolators shall be installed as specified in other
related Sections in this Division, or in specific equipment schedules.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 17 June 2016
2. All equipment shall be provided with attachment points for floor or suspended mounting
that will safety transmit all loads including seismic to the supports.
3. The vibration isolator manufacturer shall be responsible for the proper selection of
vibration isolators suitable for the particular application. Selection of the vibration isolator
shall include the following factors.
a. Equipment Weight
b. Equipment operating frequencies
c. Type of building support structure
d. Seismic forces as required by the applicable building codes to include shear, tension
and compression due to the code specified loads.
4. All floor mounted vibration isolators shall be bolted to the floor or framing on which they
rest. Bolts shall be arranged to prevent transmission of vibration through the bolts.
5. All isolation devices for a single piece of equipment shall be selected for a uniform static
deflection according to distribution of weight in the equipment.
6. All pieces of equipment that have a variation in weight during operation or maintenance
such as, but not limited to, cooling towers and hoppers, shall have built-in vertical limit
restraints to limit motion to a maximum of 1/4-in.
7. Isolators exposed to the weather, in rooms classified on electrical drawings as damp, wet,
or corrosive or where called for on the Drawings shall be provided with corrosion
protection. Steel parts other than springs shall be galvanized. Parts subject to wear,
rubbing, shall be non-corrosive material such as rubber or stainless steel. Springs and
hardware shall be cadmium plated or otherwise provided with an approved coating.
8. After installation of equipment, isolators shall be adjusted for proper loading and
distribution of weight.
B. Types - The following types of vibration isolators may be used.
1. Isolation Types for Floor Mounting
a. Single elastomer-in-shear isolators, molded mound shaped element designed for
1/4-in deflection under the imposed static load. Double elastomer-in-shear isolators
shall be two such elements assembled in series or a molded element designed to
provide 1/2-in deflection under the imposed static load. Elastomer-in-shear isolators
shall be properly housed to prevent bulging and shall be provided with adequate
facilities for bolting to equipment and floor slab.
b. Spring isolators shall be free standing and laterally stable and shall be equipped with
acoustical-friction pads, leveling bolts and bolt holes for anchoring to floor slab.
Springs shall have a minimum ratio of outside diameter to operating spring height of
0.8 and an additional travel to solid equal to 50 percent of the specified deflection.
Where housed springs are specified or required, provide units with telescoping cast
iron or steel housing, containing one or more springs, complete with resilient
alignment insert and a minimum of 1/4-in thick rubber or neoprene sound deadening
pad bonded to the base of housing.
c. Heavy load pads shall be 1-1/4-in thick and shall consist of a high load capacity
elastomer pad and sandwiched between two 1/8-in thick steel load distribution plates
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 18 June 2016
capable of supporting loads up to 250 psi. For large pad area, steel plates of suitable
thickness shall be provided to distribute the load.
d. Light load pads shall be neoprene corrugated single, laminated double or laminated
with 1/2-in thick fine granular composition cork sandwiched between two 1/4-in
layers of corrugated, oil resistant neoprene. Pads shall be capable of loading to 50 psi.
2. Unless specifically noted in other sections of the specification or on specific equipment
schedules, all equipment will be provided with vibration isolation as defined by the
following table:
Type of
Equipment
Vibration
Isolation
Type
Minimum
Deflection for
Slab on
Grade Inches
Minimum
Deflection for
up to 20-ft
floor span
inches
Minimum
Deflection for
20-ft to 30-ft
Floor Span
Inches
Minimum
Deflection for
30-ft to 40-ft
Floor Span
Inches Condensing Units
Neoprene
0.25
--
--
--
Air Handling Units
Neoprene
0.25
--
--
--
C. Rigidly Mounted Equipment
1. When equipment does not require vibration isolation, it shall be firmly attached to the
building structure. Bolts and support structure shall include allowances for seismic loads as
required by the applicable building codes to include shear and moment loads.
2.04 FLAME AND SMOKE RATINGS
A. All materials, including adhesives, surface coatings, sealers, assemblies of several materials,
insulation, jacketing, finish, etc, shall have flame spread ratings not over 25 (fire resistive), and
smoke development ratings not over 50, as established by tests conducted in accordance with
ASTM E84, NFPA 255, and UL 723..
B. These requirements apply to all circumstances whether the materials are field applied or applied
by a manufacturer in his/her shop, or elsewhere, prior to delivery to the project.
2.05 V-BELT DRIVES
A. V-belt drives shall consist of the driver and driven sheaves and one or multiple matched V-belts.
Select V-belt drives with belt horsepower ratings equal to or greater than 1.5 times the driving
motor nameplate horsepower. Provide sheaves with steel, cast iron, or malleable iron split taper
bushings and keyways on driven shafts of 3/4-in and larger diameter.
2.06 NOISE CRITERIA
A. The selection of pumps, fans, air handling equipment, air conditioners, heating ventilating and
air conditioning machinery and mechanical equipment and the installation of the system
components such as duct work and piping shall be such as not to exceed to maximum
permissible noise for non-equipment spaces as defined in Table 2, Design Guidelines for HVAC
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 19 June 2016
System Noise in Unoccupied Spaces contained in the 1995 edition of the ASHRAE Application
Handbook. Under no conditions shall the noise created by equipment exceed the levels of
permissible noise exposures of occupational areas as established by the OSHA and other
Federal, State and local safety and health standards, codes and ordinances.
B. The equipment supplier shall provide actual data for the equipment submitted. If the space does
not meet the required criteria, and the noise level of the equipment is found to be the cause, the
equipment supplier shall be responsible for the modifications required to correct the condition.
2.07 BEARINGS
A. General - Furnish equipment bearings suitable for the intended equipment service. Furnish
bearings designed to carry both thrust and radial loads for equipment designed for all angle
operation.
B. Provide extended lube lines with pressure relief equipped grease fittings for all bearings which
are not readily accessible from outside the equipment.
C. Bearings for all equipment in the schedule below shall have heavy-duty grease lubricated self-
aligning ball or roller bearings. Bearings shall have ample thrust provision to prevent end play
during the normal life of the bearing. Unless specifically noted otherwise, all fans shall have
bearings for both the equipment and motors with the following ABMA L-50 life.
1. Fans over 3000 cfm - 100,000 hours.
2. Fan impellers greater than 10-in diameter
3. Continuous duty fans with motors over 25 horse power 200,000 hours.
4. All fans with motors over 50 horse power 200,000 hours.
D. Belt driven fans, including air handling unit fans shall be equipped with self-aligning single row
ball bearings, double row tapered or spherical roller bearings.
E. For systems with bearings requiring L-50 lives of 200,000 hours or greater, the equipment
supplier shall provide calculations for both the equipment bearings and the motor bearings to
confirm the bearing selections. For belt drives, the calculations shall include the effect of the
sheave size, number of belts, the sheave location on the shaft, and the location of the motor to
the driven sheave.
F. Provide seals for bearings installed in airstreams, exposed outdoors, and for applications in
corrosive or dusty atmosphere.
G. Provide bearings suitable for high temperature service where heat fan construction is required.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 20 June 2016
2.08 HANGERS, SUPPORTS AND ANCHORS
A. General
1. Furnish supports, hangers and other devices necessary to support and anchor firmly and
substantially the piping, equipment and ductwork described in this Section. Piping and duct
support systems shall include restraints as required by the applicable building codes to
withstand seismic and wind loading. Design shall be provided by a licensed professional
engineer hired by the Contractor as specified in Part 1. Signed and sealed calculations shall
be submitted for record purposes.
2. All equipment, ductwork, piping, and supports that are installed outdoors shall be designed
and installed to meet wind loadings as required by the International Mechanical Code with
amendments, the International Building Code with amendments, all other applicable codes,
and the requirements of this specification. Design services shall be provided by a licensed
professional engineer as specified in Part 1. All equipment shall be furnished with factory
supports and/or tie downs to properly secure the equipment to applicable structure,
equipment pad, etc.
3. For all outdoor equipment, each equipment manufacturer shall provide a signed and sealed
letter certifying that their equipment's unit integrity and anchoring system meet the
requirements of the International Mechanical Code with amendments, and the International
Building Code with amendments.
4. All equipment shall be provided with lugs or brackets to allow the equipment to be firmly
fastened to the structure. The lugs and brackets shall be sized to withstand the expected
seismic and wind loads for the area and type of application. Location of the attachments
shall be based on the equipment being hung or base mounted as shown on the Drawings
and the schedules.
5. Design of hangers, supports, anchors and hold downs shall include the effect of all loads
applied to the equipment, pipe or duct as well as the load of the component. These loads
include, but are not limited to wind, seismic and internal dirt or liquid buildup.
6. Provide galvanized steel hanger rods, hangers, supplementary steel, anchors and guides in
in the Operations Building Administration and Lab Areas. Provide Type 316 stainless steel
for all outdoor applications.
B. Hangers and Suspension
1. Furnish and install all miscellaneous metalwork.
2. Where C-clamp type hangers are used, furnish with a retainer strap.
3. Hangers shall not be supported from roof decking or bulb tees. Where required, provide
supplemental steel to span between the building structures.
4. All piping supported at a maximum of 10-ft-0-in intervals. Hangers or rings, sized to fit
outside the insulation.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 21 June 2016
5. All piping 2-in diameter and smaller supported by pipe rings or bands with one 3/8-in
adjustable steel rod hanger and one concrete insert.
6. Anchor piping mains where indicated or wherever necessary to limit pipe expansion and to
prevent vibration. Furnish anchors constructed of steel securely bolted to masonry and
welded to pipes.
7. Rectangular, Round and Flat-Oval Ductwork - Spacing and size of hangers shall be as
called for in the SMACNA standards, except as detailed below:
a. Rectangular ductwork 48-in wide and larger shall be supported by two adjustable
threaded rods.
b. Round ductwork 37-in and larger shall be supported by two adjustable threaded rods.
c. The following methods of hanger attachment to the building structure are NOT
allowed. The numbers and letters refer to hanger methods shown in Figure 4-1, 4-2
and 4-3 of the 1985 edition of the HVAC Duct Construction Standards Metal and
Flexible as published by SMACNA.
1) "T" wrap around straps of open web joist.
2) "W" bent over band on open web joist.
3) "14" Friction clamps
4) "17" Bent wire in metal deck.
8. All hanger and fastener material shall be of same finish as ductwork which they serve, e.g.,
galvanized, aluminum, black steel, etc. When a material other than the duct construction
material must be used, the material used must be as corrosion resistant or greater than the
duct material.
9. Perforated band iron or wire for supporting ducts shall not be permitted.
10. Support flexible duct by band hangers, 1-in wide minimum, attached so as not to crush the
ductwork. The use of wire to hang flexible ductwork shall not be permitted.
11. Duct supports at flexible connections shall be adjustable.
2.09 PAINTING AND COATINGS
A. Unless otherwise specified, all machinery and factory finished equipment such as pumps, fans,
air handling units, air conditioning units, and other items of manufacture shall be hot dipped
galvanized or will have a factory applied finish, color as standard with the manufacturer.
Components fabricated from stainless steel do not require a coating finish unless otherwise
specified. All tanks, supporting steel, hangers, rods and all other uncoated or non-galvanized
steel other than standard piping and fittings shall have a shop coat consisting of a suitable
primer and finish coat. If not factory applied, the prime coat shall be as provided per the
manufacturer’s requirements. All items not factory or shop primed prior to installation shall be
suitably cleaned of rust and mill scale by wire brushing, sanding, or other means and prime
painted, immediately after installation.
B. The Contractor shall be responsible for the repair of all defects, blemishes, holidays and the like
apparent in manufactures coatings and shall ensure that the materials used for such repair shall
match and be compatible with the manufacturer’s standard color, coatings and practices.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 22 June 2016
Surfaces to be repaired or recoated are to be prepared as recommended by the paint or coating
supplier. Care shall be taken not to paint over nameplates.
C. Furnish touch up paint for the various types of equipment furnished and deliver unopened paint
to the Owner at completion of the project. The amount of touch-up paint supplied shall be
sufficient to cover 15 percent of the applicable painted surfaces or one pint, whichever is greater.
D. Where specified, or called for on the following schedule, special corrosion resistant/protective
coatings shall be provided. Whenever a protective coating is specified, the equipment shall be
coated both inside and out. Whenever necessary to provide full coverage of the equipment, the
equipment shall be completely disassembled to allow proper preparation and coating
application. Any component that would block the coating process shall be removed. Equipment
provided with gaskets or liners shall be coated before the application of the gasketing or liner.
The equipment Vendor shall test rotating equipment after coating to confirm dynamic balance.
If work needs to be done to correct the equipment balance, the integrity of the coating must be
corrected after such work.
E. Ductwork connections to units that require corrosion resistant coatings shall be made with
flanges. Flanges shall be factory drilled before coating. Resilient washers suitable for the
environment shall be used to protect the coating from the bolts in the flange. The use of self-
tapping screws or other fastening methods that will damage the coating are not acceptable.
F. All items to be provided with a protective coating shall have the following data on the coating
included with the unit submittal. Submittal shall include vendor data sheets on the specific
coating being used, corrosion resistance data sheets, detailed application data sheets to include
surface preparation procedures. For baked coatings submit a letter from the coating
manufacturer, that the company doing the actual coating operation is an approved coating
company. When an equipment supplier provides the coating, the information shall be supplied
by the coating manufacturers.
G. Inspection and Preparation of Coil prior to Cleaning and Coating
1. Coil shall be inspected for fin damage. Bent fins shall be straightened using the proper
fitting fin comb. Tubes and tube “U” bends shall be inspected for dents, punctures or
pinched areas. Where possible, and with equipment manufacturer’s approval bent,
punctured, pinched tube or “U” bend areas shall be repaired and leak tested by coating
vendor’s A/C technician prior to coating. Vendor shall securely seal all open tubes to
prevent the infiltration of dirt , water, cleaning and coating solutions into the tube. The
header tube shall be fitted with a Schrader valve and the coil placed under no less than 5
and no greater than 50 psi nitrogen blanket throughout the cleaning and coating process.
The charge shall be recorded and verified following coating to ensure the coil was not
damaged allowing cleaning or coating solutions to infiltrate the tube side.
H. Cleaning and Conditioning of the Coil Fin and Tube Surfaces Prior to Coating
1. Following initial preparation of the coil, the coil shall be thoroughly cleaned using a non-
etching and non-oxidizing detergent solution having less than 10- ppm chlorides, and
formulated for use on ferrous and non-ferrous metals to remove shop soils, dirt, grease and
oils from the surface of the coil fins, tubes and casings. Following the detergent cleaning
the coil shall be thoroughly rinsed using clean filtered water to flush off soils removed by
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 23 June 2016
the detergent. The surface to be water break free when rinsed ensuring a clean surface. A
non-oxidizing chemical solution sealer shall then be applied to enhance adhesion and
provide secondary corrosion protection. The coil shall then be dried at temperatures up to
220 degrees F until thoroughly dry prior to applying the coating.
I. Coatings shall be of the following types:
1. MANUFACTURER STANDARD COATINGS
a. Coating material shall be manufacturer’s standard as specified in the schedule below.
Surfaces shall be prepared, primed and coated as required be the coating supplier.
Heat curing shall be provided where required by the coating supplier.
2. BAKED PHENOLIC (for heat transfer coils, dipped) TYPE 1A and TYPE 1B
a. Type 1A- Coating Material Heresite P-413C baking phenolic with a plastizer or
approved equal. The surface shall be degreased and etched or phosphatizing by
immersion. The coating shall be applied in multiple coats by immersion, with a baking
(partial cure) in an oven following each immersion. After the final immersion and the
application of one (1) spray coat, the coating shall be completely cured with a baking
at 400 degrees F. The coating shall provide a final dry film thickness of approximately
2 mils.
b. Type 1B – Coating material Husky Coil Coat and Husky E-Vap Coat from Bronz-
Glow. Coil shall receive corrosion protection treatment from a qualified coating
vendor through application of vendor’s in-house dip coating process. The coating
material applied by this process shall have passed a minimum 3,500 hours salt spray
test in accordance with ASTM B-117.85. Coating solution shall provide effective
corrosion protection throughout the entire pH range of 1.0 to 14.0. Coating material
shall consist of a synthetic polyelastomer material having properties of a minimum
5,000 psi tensile strength, 400% or greater flexibility, 250% or greater elasticity to
prevent chipping, cracking or flaking, have negligible (less than ½ of 1%) effect on
heat transfer coefficients, coating shall contain a UV inhibitor rating at 10 year Florida
sun protection and coating shall be of a type that can be repaired in the field in the
event of damage to the coating. The protective coating shall be applied by dip
application (complete immersion) of the coil into the coating solution. Following
curing of the coating the dry mill thickness of the coating shall be not less than 1 or
greater than 1½ dry mills. Following dip coating the coil fin edges shall be sprayed to
enhance fin edge coverage then the coating shall be cured at temperature of not
greater than 200°F until fully cured.
c. Equivalent complete immersion coating products by ElectoFin or equal will be
considered upon Engineer’s review and approval of product data, application data, and
corrosion resistance data.
3. AIR DRIED PHENOLIC (equipment) TYPE 3A and TYPE 3B
a. Type 3A - Coating Material Heresite VR-507 air dried phenolic coating. The surface
shall be prepared by degreasing with an appropriate solvent. Steel surfaces for non-
immersion shall be sand blasted in accordance with NACE No. 3 or SSPC-SP6.
Surface profile shall be 20 to 25 percent of dry film thickness. If blasting is not
possible, the surface shall be primed with Heresite P-750 in accordance with the
supplier’s recommendations. Dry film thickness shall be 0.5 to 0.75 mills. Thinner
where required shall be of the same manufacturer as the coating. Coating shall be
applied by spraying in multiple passes. The piece shall be dried in accordance to the
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 24 June 2016
manufactures time schedule. The equipment shall be given a minimum of three coats
resulting in a dry film thickness of 4 to 6mils. All equipment coated with VR-500
shall be given a topcoat of Heresite UC-5500. The UC-5500 series shall be applied by
spraying and shall have a dry film thickness of 4 to 5 mils.
b. Type 3B - Coating material Husky SPC or Husky Pat Coat and Lin Coat from Bronz-
Glow. When spray coating interior or exterior metal surfaces for corrosion protection
vendor shall prepare the coated or uncoated metal surface in accordance with coating
manufacture’s specification. Coating shall have passed 3,000 hours salt spray test in
accordance with ASTM B-117.85 Coating shall be a synthetic resin elastomer having a
minimum 300% flexibility, 200% elongation, and effectively provide protection
throughout the entire a pH range of 1.0-14.0. The coating shall be applied to a dry
thickness of 4-6 mils. Coating to be field repairable in the event of damage to the
coating. Following coating application coating shall be fully cured in accordance with
manufacture’s specifications prior to being placed in service or packaged for shipment.
c. Equivalent spray-on or roll-on cabinet coating products will be considered upon
Engineer’s review and approval of product data, application data, and corrosion
resistance data.
J. Coatings shall be factory applied by the equipment manufacturer/supplier. If this is not possible,
coating shall be applied by a specialty shop under contract to the equipment
manufacturer/supplier.
1. Corrosion protection shall be provided, by an authorized coating vendor for each
applicable unit component as specified herein. A “Certificate of Coating Compliance” shall
be issued by the coating vendor verifying use of the specified products and processes.
Coating vendor shall supply owner a written “Owner’s Coated Coil Cleaning Service and
Maintenance Manual”. Aforementioned certificate and manual shall be submitted upon
completion of the project with all other closing documents.
2. Prior to shipment or installation of a coil into a cabinet coil shall be pressure tested to
110% of operating pressure and held for 45 minutes to ensure no leaks have occurred. Coil
shall then be evacuated and placed under nitrogen blanket or installed in the cabinet.
3. When coil is being shipped as a single unit vendor shall protect coil tubes from soil or
moisture infiltration by shipping coil under a nitrogen blanket of not less than 5 psi on the
fluid side. Coil shall be tagged advising coil is under nitrogen blanket and psi rating of the
nitrogen blanket.
4. Following installation of coil into the cabinet coating vendor’s a/c technician shall place
coil under a 200-400 micron vacuum to ensure integrity of coil and absence of moisture
within the coil.
5. Coil shall be issued a registration number and number shall be affixed to the coil by means
of a non-removable polymer seal. Coating vendor shall maintain a job warranty file for
each coil coated for the period of the warranty.
6. After coating application is completed, the equipment manufacturer/supplier shall test the
equipment and certify system operation prior to releasing the equipment to the job site.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 25 June 2016
K. Any holidays, runs, sags, blisters, or inclusions in the coating are unacceptable and will be
corrected. With the approval of the engineer, small areas no more than 4-in by 4-in may be
corrected in the field. Larger faults shall be returned to the coater to be repaired. The faulty
material shall be removed by sanding and in the case of blisters, the edges feathered. The
material used for recoating shall be manufactured by the same manufacturer as the original
coating and shall be suitable for field repairs. The touch up material shall have the same
corrosion resistance as the original coating, and if the original coating required an ultraviolet
protection, the same protection will be provided as part of the repair. The final mil thickness of
the repaired coating shall be equal to the originally specified thickness. Where baked coatings
have been damaged, the repair shall be made with heat applied to the repaired surface to cure
the coating. After curing a solvent test as recommended by the manufacturer shall be used to
confirm that the coating is cured.
L. The coating manufacturer shall supply direct to the engineer, a set of coupons showing the final
appearance of the cured coatings. Any coating that does not match the supplied coupons will be
rejected.
2.10 TESTING, ADJUSTING AND BALANCING
A. Furnish the services of an AABC or NEBB certified agency for the testing, adjusting and
balancing of all HVAC air systems installed under this Section.
B. The testing, adjusting and balancing agency shall be independent of all suppliers, installers and
contractors on the project.
C. Refer to Section 15990 Testing, Adjusting, and Balancing for additional requirements.
2.11 INSULATION
A. Provide insulation adhesives, coatings and vapor barrier materials, which are compatible and
recommended, for use by the insulation manufacturer. Submit a certified statement from the
insulation manufacturer attesting to their approval of the adhesives, coatings, and vapor barrier
materials. The following adhesives and coatings, as manufactured by Foster Div.; H.B. Fuller
Co. or Childers Products Co. are representative of approved products that meet the above
requirements. (Other manufacturers who demonstrate to the Engineer that their products are
equivalent are acceptable.)
1. Lagging adhesive: 30-36, CP50, AMV-1.
2. Vapor barrier coating: 30-35, CP30.
3. Vaporseal adhesive: 85-75, CP82.
4. Duct adhesive: 85-20, CP82.
5. Sealing compound adhesive: 30-45, CP70.
6. Weatherproof mastic: 35-01, CP10-1.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 26 June 2016
B. Closed cell foam type insulation applications include, but are not limited to:
1. Refrigerant Piping – Suction Lines
2. Condensate Drain Piping – Air Conditioners
a. Insulation Material - Preformed flexible closed cell foam pipe insulation, minimum
density 5.5 lbs/cu ft, maximum "K" factor of 0.27 at 75 degrees F mean temperature.
b. Provide a field applied 0.016-inch aluminum jacket secured with stainless steel straps
for all piping.
3. Acceptable manufacturers shall be Armstrong Corp; Manville Corp.; or equal.
C. Blanket type duct insulation shall include but not be limited to the following:
1. Concealed round and rectangular single wall ductwork.
2. Exposed round single wall ductwork.
a. Insulation Material - Fibrous glass insulation, minimum density 1 lb/cu ft and a
maximum "K" factor of 0.29 at 75 degrees F mean temperature.
b. Facing - Factory applied vapor barrier 0.10 perm consisting of glass fiber scrim
reinforced laminated facing of 2 mil aluminum foil and kraft paper.
D. Fiberglass board type insulation shall include but not be limited to the following:
1. Exposed rectangular single wall ductwork and plenums.
a. Insulation Material - Fibrous glass insulation, minimum density 3 lbs/cu ft and a
maximum "K" factor of 0.24 at 75 degrees F mean temperature.
b. Facing - Factory applied vapor barrier 0.02 perm, consisting of glass fiber scrim
reinforced laminated facing of 2 mil aluminum foil and kraft paper.
E. Acceptable manufacturers shall be Armstrong Corp; Certain-Teed; Owens Corning; Manville or
equal.
2.12 PIPE AND FITTINGS
A. Condensate Drains
1. Pipe - Copper tube ANSI H23.1 Type K or ANSI H23.6 Type DWV hard drawn.
Fittings - Soldered cast brass or wrought copper drainage fittings ANSI B16.29.
2. Solder - 95 percent tin and 5 percent antimony per ASTM B32, Alloy 95TA.
B. Refrigerant Piping
1. Pipe - Type ACR copper, precleaned, inert gas filled, and capped. Fittings - Soldered
wrought copper.
2. Solder - Hard silver solder with a minimum melting point of 1,300 degrees F. Fit up and
solder joints while using an inert gas purge.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 27 June 2016
2.13 AIR CONDITIONING SYSTEMS
A. In general, all air handling units, make-up air units, and split systems shall be factory assembled
with cabinet fan, heating and/or cooling section, filters, dampers, access sections with hinged
access doors, motor, motor base, drive, drive guard and vibration isolators.
1. Units shall be designed to provide an integrated assembly when all of the components are
assembled. All transition sections and filler pieces required between sections are to be
provided as part of the unit.
2. Support brackets or rails are to be provided with the unit. Type of support is to be as
required by the schedules and as shown on the Drawings, e.g. hung, floor mounted, etc. All
air handling units shall be provided with lugs, brackets or field supplied devices to allow
the unit to be firmly bolted to the structure or fastened to specified vibration isolators. The
lugs, brackets or field supplied devices shall be sized to withstand the expected seismic
loads for the area and type of application. Location of the attachments shall be based on the
equipment being hung or base mounted as shown on the Drawings and the schedules.
3. Self-contained package units shall also contain compressors, refrigerant piping system,
condenser, condenser fans and drives, mounting curb and factory wired control panel.
4. Heat pump units shall use a refrigerant system for both heating and cooling. Units shall
include reversing valves and defrost controls.
5. Units not mounted on vibration isolators shall have all rotating components internally
isolated from the main unit with vibration isolators.
6. Ductwork connections to units that require corrosion resistant coatings shall be made with
flanges. Flanges shall be factory drilled before coating. Resilient washers suitable for the
environment shall be used to protect the coating from the bolts in the flange. The use of
self-tapping screws or other fastening methods that will damage the coating are not
acceptable.
B. Casings
1. Casings shall be galvanized sheet steel construction with structural framing members as
required. Pressure class rating shall be for the total fan static pressure. All sections of the
unit shall be of the same pressure class.
2. The housing shall be constructed of formed and reinforced metal panels, fabricated to
allow removal for access to internal parts and components, with joints between sections
sealed and continuous seam welded corners. Unit shall be double-wall construction with
insulation sandwiched between the panels. Provide with structural framing as required.
Interior of unit shall be flush with no internal standing seams or framing extending into the
air stream. Seal all seams with high performance polyurethane sealant. Materials of
construction shall be as called for in the schedules. The housing shall be coated internally
and externally with a gray polyurethane enamel for corrosion resistance. Pressure class
rating shall be for the total fan static pressure. All sections of the unit shall be of the same
pressure class.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 28 June 2016
3. Where specified on the schedules, and in all units with heating and/or cooling sections, the
unit shall be insulated. All sections including, but not limited to, return plenum, coils,
filter, spacers, access sections, fan cabinet, mixing box and by-pass sections, shall be
insulated. Insulation shall be 1-in mat faced or neoprene coated fiberglass liner, 1-1/2
pound minimum density, installed with stick clips and adhesives to prevent erosion of the
insulation.
4. Provide gasketed access doors for servicing all components. Access doors shall have a
positive-pressure locking latch to provide an airtight seal. Bolts, nuts and shafts for door
latches, handles and hinges shall be stainless steel.
5. Where suspended from structure, horizontal units shall be supported on channel supports or
provided with brackets.
6. Holes shall be provided in the base rails for rigging shackles to facilitate overhead rigging
and forklift slots shall be provided to facilitate maneuvering.
7. Units for outdoor installation shall comply with the following:
a. Materials of construction shall be corrosion resistant, or provided with a corrosion
resistant coating system for weather protection.
b. The casing shall enclose all components for weather protection, with gasketed access
doors provided for all sections to facilitate maintenance. Doors shall have provision
for key locking to prevent unauthorized tampering.
c. Top of housing shall be constructed to prevent buckling and ponding of water.
C. Fan Section
1. Fans shall be centrifugal cabinet fans with belt or direct drive as scheduled. Extended
external lubrication fittings shall be provided.
2. On belt driven fans, mount motor on an adjustable slide base, equipped with jack screws.
3. Where scheduled, backwardly curved wheels shall be air foil type.
4. All fans shall be statically and dynamically balanced before shipment.
5. Whenever possible, fans shall be AMCA certified for sound and air performance, per
AMCA 210-85 and AMCA 330-86.
6. Where called for on the schedules, fans shall be of spark resistant construction. On spark
resistant fans, bearings shall not be placed in the air stream. Construction shall conform to
AMCA 99-0401-82 Classification.
7. Fan bearings shall be furnished as specified elsewhere in this Section.
D. Cooling Section
1. Cooling coil section shall be insulated, and provided with with drain pan, coil support slide
rails and coil closure plate. Coil mounting shall minimize air by-pass around the coil.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 29 June 2016
Provide insulated drain pan with a corrosion resistant lining and drain connections on both
ends of the drain pan.
2. Refrigerant cooling coils shall be cartridge type with copper tubes, aluminum fins,
galvanized steel frame, copper suction header and distribution tubes. Fins shall be
mechanically attached to the tubes. Coils shall be pressure and leak tested at 300 psig with
air under water. Coils shall be certified per ARI Standard 410.
E. Heating Sections
1. Heating section shall be insulated. Where heating is provided by coils, coil support slide
rails and closure plates shall be provided.
2. Location of heating sections, preheat and reheat, shall be as shown on the schedules or
Drawings.
3. Electric Heating Coils
a. Electric heating coils shall be open resistance heating type with coil and unit UL
listed. Coils and coil controls shall meet NEC requirements. Coil frame shall be
galvanized steel with vertical element supports. Elements shall be insulated from the
supports with ceramic bushings.
b. Factory wired controls shall be provided in the unit control panel. Panels shall include
all safety controls and interlocks, step control relays and devices and terminal strip for
remote wired devices. Step control sensors and step controller will be provided under
the temperature control portion of the specification. Control voltage shall not exceed
120V.
c. Electric heaters must comply with the latest NEC and UL requirements and shall
include the following:
1) Primary overtemperature, thermal cut-out (automatic reset).
2) Secondary thermal protection (manual reset).
3) Zero clearance construction. Maximum current of 48 Amps per circuit.
4) Interlock between fan and heater control circuit.
5) A disconnect switch at or within sight of magnetic contactors.
6) Factory dielectric test of electrical insulation.
7) Fusible links (heat limiters) for thermal protection will not be accepted.
8) All three phase duct heaters shall have balanced three phase circuits. Where duct
heaters draw more than 48 Amps, each circuit must have fused or circuit breaker
protection.
9) Pressure type minimum airflow switch.
10) The following built-in accessories and controls, in addition to the NEC and UL
required safety controls, shall be housed in the terminal box, magnetic contactors
for automatic temperature control, control circuit transformers and a fusible
disconnect switch with visible break and external operating handle with direct
linkage to disconnect switch.
F. Filters
1. See make-up air and air handling unit schedules for filter types by unit.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 30 June 2016
2. Filter Box shall have tracks for the specified filter types, except roll filters, to allow filter
replacement from either side. Sealing material shall be provided at tracks and ends to
prevent air by-passing the filters.
3. Disposable Filters shall be framed filters, 1-in or 2-in thickness (as scheduled). Filter
pressure drop for clean filters at 300 fpm face velocity shall be 0.2-in wg for 1-in thick and
0.15-in wg for 2-in thick filters. Filter shall have 30 to 35 percent efficiency on ASHRAE
test standard 52-76. Manufacturers and type shall be American Air Filter Co., Am Air
300X; Farr Co., 30/30 Disposable or equal.
4. A total of three complete sets of filter media shall be provided for each unit.
G. Condensing Units
1. Condensing unit shall consist of casing, compressor(s), refrigerant piping system,
condenser, condenser fans and drives and factory wired controls and panel.
2. All rotating components shall be internally isolated with vibration isolators from the main
unit.
3. Condenser section for self-contained package units shall be an integral part of the unit and
shall be part of a complete factory assembled unit.
4. Condensing unit for split systems shall be designed and constructed for mounting remote
from its associated air handler with field fabricated interconnecting refrigerant piping,
including associated specialties.
5. Refrigerant compressors shall be of the type, number, and capacity specified on the
schedules. Compressors shall be provided with unloading or hot gas by-pass as required by
the schedule. Compressor shall include suction strainer, crank case oil sight glass, oil
strainer and oil heater and forced feed lubrication. Compressor controls shall include
three-phase manual reset overload protection, hi-low refrigerant pressure cutout, manual
reset low oil pressure cutout, non-cycle pump down relay. In addition multiple compressor
units shall have a compressor sequence switch.
6. Air cooled condenser shall have propeller or centrifugal fans as shown on the schedules.
Exposed fans shall be provided with fan guards. Coils shall have copper tubes, aluminum
fins, galvanized steel frame and copper headers. Fins shall be mechanically attached to the
tubes. Coils shall be pressure and leak tested at 425 psig with air under water.
H. Heat Pump Units
1. Heat pump units shall include reversing valve and required controls to operate as a heat
pump. Units shall incorporate an outdoor coil defrost system to prevent excessive frost
accumulation during heating duty. Defrost shall be initiated on the basis of time and coil
temperature. A 30/50/90-minute timer shall activate defrost cycle only if coil temperature
is low enough to indicate a heavy frost condition. Defrost cycle shall terminate when
defrost thermostat is satisfied and shall have a positive termination time of 10 minutes.
Compressor with standard controls shall be capable of cooling operation down to 25
degrees F ambient outdoor temperature. Compressor shall be capable of operation in
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 31 June 2016
heating duty down to minus 10 degrees F ambient outdoor-air temperature. Units shall be
capable of simultaneous heating duty and defrost cycle operation when using electric
heaters.
I. A complete refrigerant piping system shall be factory fabricated and installed in the unit. Each
compressor shall be provided with a complete and independent refrigerant piping system.
1. Piping shall be Type K copper tubing with joints silver brazed. Brazing shall be done with
an inert gas purge. Suction lines shall be insulated with closed cell foam insulation. Hot gas
piping shall be insulated to protect personnel as required.
2. Valves shall be bronze body brazed connection and shall include compressor and condenser
relief valves, condenser liquid line service valve, refrigerant charging valve, compressor
discharge, suction service valves, liquid line solenoid and thermal expansion valve.
3. Complete refrigerant system shall be cleaned, leak tested and charged with refrigerant.
4. Size of field fabricated piping for split systems shall be determined by the equipment
manufacturer.
J. Unit Control Panel
1. For self-contained package units, split systems and fuel burning units, factory wired
control panel shall be furnished and mounted on the unit. Panels shall include all controls
required in other sections and all safety controls and interlocks, heavy duty fused visible
break disconnect, control devices, motor starters and terminal strip for remote wired
devices. Control type and sequence shall be as specified in other related Sections or on the
Drawings. Control voltage shall not exceed 120 Volts. Control panel door shall be
provided with a keyed lock. A complete wiring diagram shall be permanently attached to
the inside of the panel door. Step control sensors and step controller will be provided under
the temperature control portion of the specification unless specified with unit on the
equipment schedule.
2. Furnish electric heater section controls as scheduled and in accordance with the controls
specified under Electric Duct Heaters, elsewhere in this Section.
3. Where specific area classifications are called for or shown on the electrical drawings, all
equipment and wiring shall be in conformance with the requirements for that classification.
4. The type of enclosure shall be NEMA 1.
K. Accessory Sections
1. Accessory sections shall be as shown on the Drawings and Schedules, and as required for
the unit type.
2. Mixing boxes shall be of the configuration shown on the Drawings. Deflection plates shall
be provided if required to maintain even air flow over coils and prevent stratification.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 32 June 2016
3. Spacer and access sections will be provided where specified or required. Access sections
shall have hinged doors on each end except for filters.
4. Inlet and discharge louvers for outdoor mounted units shall be weatherproof design.
5. Factory fabricated insulated curbs shall be provided where shown on the schedule and/or
Drawings. Curbs shall be galvanized steel construction with corrosion resistant coating.
Unless otherwise specified, curbs shall include provisions for supply and return air duct
and piping connections to the area below. Where the roof is pitched the curb shall be
constructed to match the pitch and provide a level surface at the top of the curb for the unit
to mount on.
2.14 DUCTWORK
A. Sheet metal ductwork shall be constructed of the materials specified using the gauges or
thicknesses and reinforcing called for by SMACNA for the material specified. Unless otherwise
specified, all components of duct systems shall be constructed of the same material as the
ductwork. This is to include braces and turning vanes.
1. Galvanized steel ductwork shall be constructed of hot-dip galvanized sheet steel, per
ASTM, A525 and A527.
2. Aluminum ductwork shall be constructed of 3003H-14 alloy B&S Gauges.
B. Ductwork shall be constructed of the following materials and to the following standards:
Static Construction SMACNA
System Location Pressure Material Standard
Supply & Return Operations building ±2-in WG GS M&F
(Interior)
Supply & Return Operations building ±2-in WG AL M&F
(Exterior – Double Wall)
Exhaust Toilet Rooms ±2-in WG AL M&F
Abbreviations
M&F - SMACNA HVAC Duct Construction Standards - 1st Ed. - Metal & Flexible
* except where listed otherwise in this table
AL = Aluminum
GS = Galvanized Steel
C. Design of ductwork shall include all loads applied to the ductwork, in addition to the load of the
duct. These loads include but are not limited to wind, snow and internal dirt or liquid buildup.
D. Construction
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 33 June 2016
1. All ductwork shall be substantially built with joints and seams smooth on the inside and
given a neat appearance on the outside. Inside surfaces and joints shall be smooth and free
from pockets, burrs and projections. All joints shall be substantially air tight with laps
made in the direction of air flow and no flanges projecting into the air stream. All changes
in direction and duct transitions shall be shaped to permit the easiest possible air flow.
2. Pressure Classes
a. Pressure classes for determination of sheet metal gauge and reinforcing shall be as
defined by the latest issue of the SMACNA standards for duct construction.
b. For ductwork with a static pressure higher than 2-in water gauge, pressure class shall
be as shown on the Drawings. For ductwork with a static pressure 2-in water gauge or
less pressure class shall be equal to the maximum pressure indicated for the fans or air
handling units on the Schedules and the pressure class shall be the same for the entire
length, including branches, of the specific duct system.
3. Rectangular Ductwork
a. Ductwork shall be constructed as shown on the Drawings in accordance with the
specified SMACNA Construction Standard, latest edition.
b. Cross-breaking shall conform to SMACNA Standard. Cross-breaking shall be applied
to the sheet metal between the standing seams or reinforcing angles. The center of the
cross-break shall be of the required height to assure rigidity for each panel.
c. All square elbows for rectangular ductwork shall be provided with turning vanes
unless otherwise noted on the Drawings. Turning vanes shall be as detailed in the
SMACNA Manual and or as shown on the Drawings.
d. Alternate Construction (Rectangular Only) - Factory-fabricated joint systems may be
offered as an alternate form of construction. The system offered shall meet all
requirements of SMACNA. Alternate joint systems shall be "Ductmate System" as
manufactured by Ductmate Industries, Inc., installed in accordance with the
manufacturer's recommendations. The system shall be sealed for zero leakage and
angle attachment to the main duct section shall be by tack welding. The use of screws
is not allowed.
4. Round Ductwork
a. Ductwork shall be constructed as shown on the Drawings in accordance with the
specified SMACNA Construction Standard latest edition.
b. Round Ductwork
1) Round ductwork shall be either lock type, welded longitudinal seam construction
or spiral ductwork.
2) Gauges of ductwork and fittings shall be as specified in SMACNA. Draw bands
will not be permitted. Slip joint shall be used on ductwork up to 36-in in diameter
and the "loose flange" or Vanstone joint shall be used on ducts over 36-in in
diameter.
3) All seams and joints shall be continuously welded.
4) Round ductwork shall be manufactured by United Sheet Metal; SEMCO or
equal.
5. Double Wall (Acoustical Lined) Ductwork – Round, Rectangular, and Flat-Oval
a. For all ductwork shown on the Drawings as double wall, both duct and fittings shall
be lined with fiberglass with a thermal conductivity of 0.27 BTU/hr/sq ft at 75 degrees
F mean temperature. Insulation lining shall be 1-inch thick.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 34 June 2016
b. The lining shall be covered with a solid aluminum liner. See the drawings for
ductwork material.
c. Lining adhesives, cloth and coatings, shall have a fire and smoke hazard rating
conforming to ASTM E84, NFPA 255 and UL 723 with a flame spread rating not
exceeding 25, and smoked developed rating not exceeding 50.
d. Lining shall be odorless, shall not shed or dust and shall not support mold growth.
e. Duct shall be similar to United McGill Sheet Metal ACOUSTI-K27 (Spiral lock-seam
with standing rib and Acousti-line with anti-microbial agent) and Rectangular-K27
(Acousti-line with anit microbial agent) type lined duct, or equal.
6. Round Ductwork Fittings
a. All 90 degree turns shall be made of five piece mitered welded construction made by
the manufacturer of the conduit. Fittings less than 90 degrees in the riser shall be
made of multiple pieced mitered welded construction.
b. All fittings in the round duct system shall be of the male and female type and in
assembling these together, there shall be applied an approved synthetic rubber sealing
compound on the joint. Also, on the outside of the duct apply this synthetic rubber
sealing compound in order to further make these joints air tight. Mechanically fasten
the conduits together using sheet metal screws not less than four per fitting 6-in on
centers maximum and equally spaced around the circumference of fitting.
c. Round duct fittings shall be manufactured by United Sheet Metal; SEMCO or equal.
7. Insulated Round Flexible Ducts
a. Round flexible ducts shall comply with specified SMACNA Construction Standards
and be constructed of corrugated ductile aluminum that can be bent and rebent by
hand and is self-supporting. 1-in insulation shall be applied around the outside and be
finished with a vinyl cover.
b. Thermal conductivity of the insulation shall not exceed 0.27 BTU/hr/sq ft/1 degree F
at 75 degree mean temperature. Duct shall be Class I, per UL 181.
c. Maximum length shall be 5-ft. The remainder shall be galvanized sheet metal. Duct
run shall be as short and straight as possible to minimize static resistance.
8. Volume Dampers
a. Dampers shall be standard opposed or parallel multi-blade type on 2-in channel frame,
flanged connection with external damper position indicator, manual adjustment, and
position locking arrangement. Damper blades shall not exceed 6-in in width. Dampers
shall be constructed of the same material as the ductwork, or of a material of equal
corrosion resistance. Balancing and balancing/shutoff dampers shall be opposed
blades and shutoff dampers shall be parallel blade.
b. Locking quadrants shall have a positive method of holding the damper in its selected
position such as a bolt through both the quadrant and the lever arm. Systems using
springs or other devices that can vibrate loose are not acceptable.
c. Where manual dampers are used for shut off service, dampers shall have a replaceable
butyl rubber or bulb vinyl seals provided with the damper. Install seals along the top,
bottom and sides of the frame and along each blade edge.
9. Access Doors
a. Access doors shall be 24-in by 24-in minimum, except where the duct size is less than
26-in, where the largest door that will fit the duct will be used. Unhinged access
panels are not acceptable, except where shown on the Drawings. Access doors shall be
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 35 June 2016
of the same material as the duct, pan type construction for metal ductwork, with
smooth edges and fitted seals, constructed and installed for air-tight fit with ease of
opening and closing. Doors shall be substantially butt hinged, with heavy sash locks
and substantial door pulls. Door openings and door frames shall be reinforced with bar
stock or angle. Where ductwork is installed with duct liner or exterior duct insulation,
the access door shall be of the insulated type. Access doors may be factory fabricated.
Where ductwork is constructed of aluminum or stainless steel, access door hardware
shall be of similar material.
10. Fasteners
a. Sheet metal screws, drive cleats, cinch bands and other fasteners shall be fabricated
from materials with an equal of greater corrosion resistance than the ductwork in
which they are installed. Where a material other than the duct material is used, it shall
be approved by the Engineer before installation.
2.15 DIFFUSERS, REGISTERS AND GRILLES
A. General
1. All diffusers, registers and grilles shall be of the shape, sizes, capacity and type as shown
on the Drawings. Refer to the Air Distribution Device Schedule on the Drawings.
2. On all duct openings that do not have a specific diffuser, register, grill or mesh covers,
provided a wire mesh cover.
3. Finish – Unless, otherwise specified, diffusers, registers and grilles shall have the
following finish. All diffusers, registers and grilles located in ceilings shall have a baked
white enamel finish except where the ceiling system has an exposed aluminum support
grid. Where the ceiling has an exposed aluminum support grid the diffusers, registers and
grilles shall have a baked aluminum enamel finish. All diffusers, registers and grilles not
located in ceilings shall have baked aluminum enamel finish.
B. Wire Mesh Covers
1. Where wire mesh covers are called for on the Drawings, the wire mesh and support frame
shall be the same material as the duct where the cover is installed. Unless otherwise noted
the wire mesh shall be 0.5-in mesh.
2. The wire mesh shall be contained in a metal frame. The mesh shall be firmly attached to the
frame to prevent it being pulled out of the frame by casual contact. The frame shall be a
minimum of 16 gauge sheet metal or the minimum gauge for a flange based on SMACNA,
whichever is greater. The frame shall be on both sides of the mesh creating a sandwich with
the mesh in the middle. Fastenings shall go through the frame on both sides of the cover.
2.16 EXISTING CONTROL SYSTEM REPLACEMENT
A. Furnish and install a complete electric automatic temperature control (ATC) system. ATC
systems shall be as specified herein and shall perform the functions specified and shown on the
Drawings in addition to any functions and sequences specified herein and in related Sections.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 36 June 2016
B. Control system shall consist of all DDC controllers, thermostats, temperature transmitters, duct
mounted smoke detectors, pressure transmitters, automatic dampers, damper operators, control
panels, electric relays, and other accessory equipment along with a complete system of
electrical wiring to fill the intent of the specification and provide for a complete and operable
system. Control equipment shall be fully proportioning, except as noted otherwise.
C. Control sequences shall be as specified in 2.18.
D. More specifically, the existing control system replacement shall include, but not be limited to,
the following:
1. Replace existing global controller.
2. Replace existing system controllers for the boiler, air conditioning system AHU/ACCU-4,
and air conditioning system AHU/ACCU-5.
3. Replace existing VVT controllers and room sensors.
4. Provide new controller for laboratory area air conditioning system and fans.
5. Reprogram entire project to Envision for BACtalk format.
6. Create new graphical displays to use with Envision for BACtalk.
7. Complete checkout of system including detailed report of findings.
8. Owner training at Owner’s facility.
9. Update wiring diagrams and product data.
E. All new components shall be Alerton products as indicated on the drawings, and fully
compatible with all existing and new systems and components. No substitutions will be
allowed.
F. Refer to 2.17 for additional ATC equipment, and 2.18 for control sequences.
2.17 ATC EQUIPMENT
A. Room Thermostats
1. Electric room thermostat shall be of the heavy duty all metal type, provided with concealed
adjustment and exposed thermometer.
2. Temperature sensors shall be of the wire-wound resistive element type (RTD) using either
nickel or platinum alloy as the resistive element. All temperature sensors shall have an end
to end (element to readout display) accuracy of plus or minus 0.5 degree F.
3. Room thermostat and temperature sensors mounted on exterior walls shall be provided
with insulated mounting plates.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 37 June 2016
4. All room thermostats shall be mounted 4-ft-0-in above finish floor or as required by the
ADAAG and the Applicable Local Accessibility Code.
B. Static Pressure Sensors - Shall be adjustable, set point proportional type, with adjustable range
in inches of water to meet the performance or function specified.
C. Smoke Detectors (Four Wire Type)
1. Furnish and install smoke duct detectors in the supply air duct and return air duct or
plenum of all air handling units.
2. Smoke detector type shall ionization type, System Sensor Innovair model DH100ACDCI
or equal.
3. The detector housing shall be listed per UL 268A specifically for use in air handling
systems. The detector shall operate at air velocities of 500 to 4000 feet per minute. The
detector housing shall be equipped with an integral mounting base capable of
accommodating either photo electronic or ionization detector heads. It shall be capable of
local testing via remote testing station. The duct detector housing shall incorporate an
airtight smoke chamber in compliance with UL 268A, Standard for Smoke Detectors for
Duct Applications. The housing shall be capable of mounting to either rectangular or round
ducts without brackets. An integral filter system shall be included to reduce dust and
residue effects on detector and housing, thereby reducing maintenance and service.
4. Detectors shall be provided with two sets of contacts to provide smoke alarm signals. One
is to be used by the ATC systems, and the second is for interface to fire alarm system.
5. Remote test switch and alarm indicator stations shall be furnished for all duct smoke
detectors as specified above. The installation and wiring of the remote stations will be
provided under this Section. The remote test stations shall be wall mounted within the
visible location of the smoke detector and easily accessible from the floor. Alarm indicator
stations shall activate a visible and audible signal upon smoke detector activation. Alarm
indicator stations shall also activate a visible or audible signal identified as AIR DUCT
DETECTOR TROUBLE upon smoke detector trouble conditions. Alarm indicator stations
shall be mounted in a location approved by the Authority having jurisdiction.
6. Provide all necessary relays, transformers and other devices as required.
7. Where multiple units serve the same space, the smoke detectors shall be wired such that
any smoke detector will shut down all units serving the space.
D. Dampers
1. Automatic dampers shall be parallel or opposed blade as specified under “Sequence of
Operation.”
2. All damper frames are to be constructed of the same material as the duct or a material with
greater corrosion resistance sheet metal and shall have flanges for duct mounting. Damper
blades shall not exceed 6-in in width. All blades are to be of corrugated type construction,
fabricated from two sheets metal, spot welded together. Blades are to be suitable for high
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 38 June 2016
velocity performance. Maximum blade length in any section shall be 48-in. Additional
stiffening or bracing shall be provided for sections exceeding 48-in in height. Multi-section
dampers shall be provided with sufficient interconnecting hardware to provide unison
operation of blades in the entire assembly.
3. All damper bearings shall be made of nylon.
4. Replaceable butyl rubber or bulb vinyl seals are to be provided with the damper. Seals are
to be installed along the top, bottom and sides of the frame and along each blade edge.
Seals shall provide a tight closing, low (1 percent) maximum leakage damper.
5. Dampers shall be selected for the velocity and pressure differential required without
excessive deflections.
6. Modulating dampers shall be of opposed blade construction. Dampers for two position
operation may be single direction multiple-leaf type.
7. Dampers may be furnished for in duct mounting and with face linkages if the following
conditions are met.
a. Service is for supply or makeup air in either process or non-process areas or service is
for return or exhaust of non-corrosive air.
b. Space is available to install a 24 by 24 (minimum) access door in the duct on the
linkage side of the damper.
8. Dampers shall be furnished for flange mounting with exposed jamb mounted blade
linkages for any of the following applications:
a. Where installation clearances do not allow the installation of full size access doors to
allow inspection and adjustment of face linkages.
b. For corrosive, dirty or particle laden air service.
c. Where called out on the Drawings.
E. Electronic Damper Actuators
1. Electronic actuators, less than 600 in-lb of rated torque, shall have ISO 9001 quality
certification and be UL listed under standard 873, CSA C22.2 No. 24 and have CE
certification. Electronic actuators used on dampers shall be designed to directly couple and
mount to a stem, shaft or ISO style-mounting pad. Actuator mounting clamps shall be a V-
bolt with a toothed V-clamp creating a cold weld, positive grip effect. Single point, bolt or
single screw actuator type fastening techniques or direct-coupled actuators requiring field
assembly of the universal clamp is not acceptable.
2. Actuators shall be fully modulating/proportional, pulse width, floating/tri-state, or two
position as required and be factory or field selectable. Actuators shall have visual position
indicators and shall operate in sequence with other devices if required. Proportional
actuators shall be capable of digital communication, as built.
3. Two sets of DPDT switches with fully adjustable set points shall be provided to activate
panel indicators and provide signals for equipment operation.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 39 June 2016
4. Actuator shall have an operating range of minus 22 to 122 degrees F.
5. Proportional actuators shall accept a 0 to 10 VDC or 0-20 mA input signal and provide a 2
to 10 VDC or 4-20 mA (with a load resistor) operating range.
6. Actuators shall be capable of operating on 24, 120 or 230 VAC or 24 VDC and Class 2
wiring as directed by the application. Power consumption shall not exceed 10 VA for AC,
including 120 VAC actuators and 8 watts per actuator for applications
7. NEMA 2 rated actuators shall be provided with a three foot (minimum), prewired,
electrical cable. Actuators requiring removal of the actuator cover for access to wiring
terminals, exposing electronics, printed circuit boards to damage, are unacceptable.
8. Actuators shall have electronic overload protection or digital rotation sensing circuitry to
prevent actuator damage throughout the entire rotation. End switches to deactivate the
actuator at the end of rotation or magnetic clutches are not acceptable.
9. For power-failure/safety applications, an internal mechanical spring return mechanism
shall be built into the actuator housing. Spring return actuators shall be capable of CW or
CCW mounting orientation. Spring return models >60 in-lb will be capable of mounting on
shafts up to 1.05-in diameter. Spring return actuators with more than 60 in-lb of torque
shall have a manual override metal crank. Upon loss of control signal, a proportional
actuator shall fail open or closed based on the minimum control signal. Upon loss of
power, a non-spring return actuator shall maintain the last position.
10. Actuators using “on-board” chemical storage systems, capacitors or other “on-board” non-
mechanical forms of fail-safe operation are unacceptable.
11. Actuators shall be capable of being mechanically and electrically paralleled to increase
torque if required. Dampers requiring greater torque or higher close off may be assembled
with multiple low torque actuators. Dual mounted actuators using additional anti-rotation
strap mechanical linkages or special factory wiring to function are not acceptable.
Actuators in a tandem pair must be “off the shelf” standard actuators ready for field wiring.
12. Dampers actuators will not produce more than 62 dbA when furnished with a mechanical
fail-safe spring. Non-spring return actuators shall conform to a maximum noise rating of
45 dbA with power on or in the running or driving mode.
13. Proportional actuators shall be fully programmable. Control input, position feedback and
running time shall be factory or field programmable. Diagnostic feedback shall provide
indications of hunting or oscillation, mechanical overload, mechanical travel and
mechanical load limit. The actuators shall also provide actuator service data, at a minimum,
number of hours powered and number of hours in motion.
14. Where special classifications are shown on the electrical drawings damper actuators shall
be provided with suitable enclosures.
15. NEMA 4X enclosures shall be Type 304 stainless steel and shall have a shaft seal and all
electrical connections shall be suitable for the space classification. Enclosure shall be UL
listed.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 40 June 2016
16. Explosion-proof enclosure shall be suitable for Class I, II and III. A suitable shaft seal must
be provided. Housing shall be cast copper fill aluminum with stainless steel fasteners and
shall be UL listed. Housing shall be suitable for NEMA 4, 7 and 9.
F. Local ATC Panels
1. Where shown on the Drawings or required by the control sequence, provide local ATC
panels.
2. Panels shall be constructed per the requirements of Section 15520.
3. All controllers, relays, switches, etc., for equipment shall be mounted within ATC cabinets
with hinge lock type doors where shown on the Drawings. All temperature settings,
adjustments and calibrations shall be made at the system control panel.
4. Submit details of each ATC panel for approval prior to fabrication. Locations of each panel
are to be convenient for adjustment and service. Provide engraved nameplates beneath each
panel mounted control device clearly describing the function of said device and range of
operation. All manual switches and dial thermometers shall be flush mounted on the
hinged door, with permanent labels showing the function of each item. All other devices
shall be located within the cabinet mounted to a sub panel.
5. All electrical devices within the panels shall be factory pre-wired to a numbered terminal
strip. All wiring within the panel shall be in accordance with NEMA and UL standards and
shall meet all local codes.
6. Unless otherwise specified herein or shown on the Drawings, control panels shall meet the
requirements for Electrical Products specified elsewhere in this Section.
7. Electrical power supplied to automatic temperature control panels shall be 120V, single
phase, 60Hz. Where 24V power is required, a 120/24 transformer shall be provided. The
transformers shall be sized for their control system electrical loads. Transformers shall be
mounted in the local control panel.
8. Provide an 110V power receptacle in each panel.
9. Provide a copy of the wiring and control diagram for all work in each panel. The diagram
is to be stored in a pocket on the door.
G. Miscellaneous Devices - Provide all the necessary relays, limit switches, positioners, clocks,
transformers, etc., to make a complete and operable system. Locate these devices on local ATC
panel unless specified otherwise.
H. Name Tags - All sensing devices, transmitters, controllers, not mounted in a clearly labeled
panel, or which are not an obvious part of a clearly labeled device, shall be provided with an
engraved plastic plate containing the name, function and system or system number for the
device.
I. Set points on thermostats and temperature controllers, shown on the Drawings are indicative
only and devices shall be adjustable above and below such set points. If a set point is not stated,
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 41 June 2016
the control range of devices shall be suitable for the intended service. Range of devices shall be
approximately 50 percent greater in both directions than span of variable, with a minimum of 25
degrees and a maximum of 110 degrees F for air systems.
J. Thermometers - Thermometers shall be flush mounted on local panels. These thermometers
shall be of the dial type, minimum 3-in diameter.
K. Short Cycle Timers - Timers shall be electric operated with two sets of normally open, normally
closed contacts with manual time adjustment from 1 to 15 minutes.
L. Electronic Sensors
1. All mixed air and coil discharge sensors shall utilize industry standard 4-20 mA sensors
with averaging elements. Sensing elements shall be a minimum of 25-ft and temperature
sensed shall be averaged over the entire length of the element. Thermistor type sensors will
not be acceptable for this application.
2. Space type sensors shall have an accuracy of plus/minus .5 degrees over sensed
temperature range (20 to 120 degrees F).
M. Field Wiring
1. All field wiring, other than power wiring, between control cabinets (A.T.C. control),
control devices, unitary control panels and control terminals in motor control centers shall
be furnished under this Section and shall conform to the requirements of Section 15520.
2. Installation of all conduit, wire, sleeves, outlet boxes, insulating bushings, system cabinets,
terminal boxes, pull boxes, junction boxes, inserts, anchors, system devices, etc, shall be in
accordance with the appropriate requirements of Section 15520 and in accordance with the
requirements of the current edition of the local codes for signal systems and electrical
systems.
3. Run wiring in rigid steel conduit except in dry locations above ceilings and wood or metal
stud framed partition walls, where EMT may be used. Conduit, boxes and fittings and their
installation and testing shall be as specified in Section 15520.
4. Wire, with the exception of DDC cable and thermostat wire, shall be copper type
THHN/THWN insulated for 600 Volts. Wire and its installation and testing shall be as
specified in Section 15520.
5. In the event of any conflict among referenced codes, current editions of the applicable local
codes shall take precedence for interpretation of "Signal System" installation requirements.
6. Installation of sensor wiring in finished areas shall be concealed whenever possible. Where
concealed wiring is not possible, written approval for exposed work must be obtained from
the Engineer prior to installation.
7. A power supply 115V, single phase, 60 Hz, 20 Amp circuit for ATC, requirements will be
available at each local control panel. Power shall not be taken from the control power
transformers of the motor control center.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 42 June 2016
8. Coordination Issues
a. When motors are manually or automatically controlled from the HVAC ATC panels,
the panels shall include a set of normally dry (unpowered) contacts (for connection to
the motor started) which close when the motor is to operate. The ATC contractor will
wire these contacts to the motor starter and make connections to the terminals
provided. Contacts shall be rated 120 Volts, 10 Amperes, 60 Hz for inductive and
resistive loads.
b. A set of normally open dry (unpowered) contacts (for connection to the HVAC ATC
panel) which close when the motor starter has pulled in, shall be existing or as
required on the Drawings. The ATC contractor will make connections to the terminals
provided and wire these contacts from the motor starter to the HVAC ATC panel to
signal the motor is operating.
c. An existing 120V circuit is available at all control panels shown on the Drawings.
Power for the control systems is to be taken from the panels and no other source.
d. The following wiring is to be done under this Section:
1) Between ATC panels and MCCs.
2) Between ATC panels and control panels on equipment provided by the HVAC
contractor.
3) Power wiring from the ATC panels to smoke detectors and flow sensors.
e. Wiring from smoke detectors provided under this Section to the building fire alarm
systems will be provided under this Section per the requirements of NFPA 72 and
Section 15520.
f. Provide all interconnecting wiring to start and stop motors.
2.18 SEQUENCE OF CONTROLS
A. General
1. HVAC equipment will operate with the following sequences of operation.
2. The following will apply to all sequences.
a. All sequences are reversible unless otherwise noted.
b. Manual reset of control functions with manual reset will be at the local control panel
unless otherwise noted.
c. Where required to prevent nuisance shut downs of systems, provide time delay of
sensors to allow system start up before the sensors are activated. This would include,
but not be limited to low temperature freeze protection on 100 percent outdoor air
units.
d. For fan systems with shut off dampers and air flows greater than 2000 cfm and fan
operating static pressure greater than 1-in water gauge, fans shall be stopped and
started by damper end switches. When the sequence calls for the fan to run, the
control system shall open the respective damper. When the damper is open as
indicated by an end switch on the damper the fan shall start.
e. Where control sequences refer to activation of an alarm indicator, it will be
understood to mean activation of a labeled pilot light at the local ATC panel. A
dedicated pilot light will be provided for each alarm unless a common alarm light is
specified.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 43 June 2016
B. Control Sequences for Supply and Exhaust Fans
1. Supply and Exhaust Fan with Manual Control (0-120 Minute Timer)
System is designed for Intermittent Operation to provide ventilation when fume hood,
canopy hood, or lab storage area use is required.
Fume Hood – Existing Exhaust Fan EF-8 and Existing Supply Fan SF-1 – Fume Hood
Timer
Canopy Hood – Existing Exhaust Fan EF-9 – Canopy Hood Timer
Lab Storage – Existing Exhaust Fan EF-6 – Lab Storage Timer
Lab Pressurization Fan – Existing Supply Fan SF-2 – Fume Hood and/or Canopy Hood
Timer
a. When the timer is in the off position, the applicable fans shall be off and the motor
operated damper shall be closed.
b. When the timer is in the on position, the applicable fans shall run for the time set,
and the motor operated damper shall be open.
c. Fume hood fans EF-8 and SF-1 shall be interlocked.
d. Lab pressurization fan SF-2 shall operate with fume hood timer and/or canopy hood
timer to pressurize Lab Office and provide supplemental air for canopy hood
operation.
e. Refer to paragraph 2.18.C.1.g for interlocks with packaged roof top air conditioning
unit RTU-1.
2. Exhaust Fan (Continuous Operation)
System is designed for Continuous Operation to provide ventilation when the Toilet
Room is occupied.
Exhaust Fans EF-4, EF-5, EF-11, and EF-12
a. Fans shall operate continuously. Interlock with AHU-5.
C. Control Sequences for Constant Volume Direct Expansion Units
1. Packaged Heat Pump Unit with Space Thermostat Control with Nighttime Setback
System is designed for Intermittent Operation when the Lab is occupied. System
speed/capacity, and outdoor air shall automatically adjust based on lab area fan
operations.
Unit RTU-1
a. When smoke is sensed by the supply air or return air smoke sensor, all other control
functions shall be overridden and the supply fan shall be off, and an alarm light in the
smoke sensor shall be activated. Smoke sensors shall be manually reset. When
multiple air handling units serve the same space, any smoke detector shall shut all
units down in that space.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 44 June 2016
b. When the unit thermostat on/off switch is placed in the off position, the temperature
controls shall be inactivated, the supply fan and condensing unit shall be off.
c. When the unit thermostat is placed in the on position and the system fan on/auto
switch is in the on position, the temperature controls shall be activated, and the fan
shall run continuously.
1) When the space temperature sensed by the space thermostat is above the cooling
set point (75°F), the condensing unit shall be on in cooling mode.
2) When the space temperature sensed by the space thermostat is below the cooling
set point (75°F), the condensing unit shall be off.
3) When the space temperature sensed by the space thermostat is below the heating
set point (68°F), the condensing unit shall be on in heating mode. At a continued
drop in space temperature, the auxiliary electric heat shall be activated.
4) When the space temperature sensed by the space thermostat is above the heating
set point (68°F), the condensing unit shall be off.
d. When the unit thermostat is placed in the on position and the system fan on/auto
switch is in the auto position, the temperature controls shall be activated.
1) When the space temperature sensed by the space thermostat is above the cooling
set point (75°F), the condensing unit shall be on in cooling mode, and the supply
fan shall be on.
2) When the space temperature sensed by the space thermostat is below the cooling
set point (75°F), the condensing unit shall be off, and the supply fan shall be off.
3) When the space temperature sensed by the space thermostat is below the heating
set point (68°F), the condensing unit shall be on in heating mode, and the supply
fan shall be on. At a continued drop in space temperature, the auxiliary electric
heat shall be activated.
4) When the space temperature sensed by the space thermostat is above the heating
set point (68°F), the condensing unit shall be off, and the supply fan shall be off.
e. Dual (or two-speed) compressors shall have two stages of cooling.
f. The space thermostat shall be programmable with a dual position adjustable set point.
Nighttime set back set point shall be 80°F cooling and 65°F heating.
g. RTU-1 shall be provided with an automatic temperature control panel to control
exhaust fan interlocks and outside air damper position.
1) Normal Operation: RTU-1 shall operate intermittently at the low-level speed per
the control sequences above. Modulating outside air damper shall be open to the
minimum position.
2) Mid-Level Operation: When either the existing fume hood (existing exhaust fan
EF-8 and existing supply fan SF-1) OR the existing canopy hood (EF-9) are
operational, RTU-1 shall be on and operate at the mid-level speed. Modulating
outside air damper shall be open to the mid-level position. Cooling and heating
operation shall be as described above.
3) Maximum Operation: When the existing fume hood (existing exhaust fan EF-8
and existing supply fan SF-1) AND the existing canopy hood (EF-9) are both
operational, RTU-1 shall be on and operate at the maximum speed. Modulating
outside air damper shall be open to the maximum position. Cooling and heating
operation shall be as described above.
4) Refer to the RTU-1 Air Balance Schedule on Sheet H-6 and the Packaged
Rooftop Air Conditioning Unit Schedule on Sheet HD-1 for applicable supply
and outdoor airflows for each mode of operation.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 45 June 2016
2. Split System Heat Pump Unit with VVT system Control, Hot Water Auxiliary Heating
Coil, and Nighttime Setback
Education Center system (AHU/ACCU-4) is designed for Intermittent Operation when
the Education Center is occupied.
Operations Building system (AHU/ACCU-5) is designed for Continuous Operation when
the Operations Building is occupied.
Existing Unit AHU/ACCU-4
New/Replacement Unit AHU/ACCU-5
a. Existing Unit AHU/ACCU-4 shall operate per the existing control sequences. Refer to
Hoffman and Hoffman Submittal D-15500-003 Rev 1 Dated February 18, 2002. Refer
to Paragraph 2.16 and the Drawing for additional requirements.
b. Existing Unit AHU/ACCU-5 shall operate per the existing control sequences. Refer to
Hoffman and Hoffman Submittal D-15500-003 Rev 1 Dated February 18, 2002. Refer
to Paragraph 2.16 and the Drawing for additional requirements.
1) AHU/ACCU-5 shall be interlocked with toilet exhaust fans EF-4, EF-5, EF-11,
and EF-12.
2) Bypass dampers for Laboratory B-114, Bac Lab B-115, and Lab Storage B-112
shall operate as follows to provide back-up air conditioning for the laboratory
areas if RTU-1 is not operable.
a) When the manual selector switch at the laboratory area control panel is in
the normal position, bypass dampers shall be closed.
b) When the manual selector switch at the laboratory area control panel is in
the bypass position, bypass dampers shall be open.
PART 3 EXECUTION
3.01 INSTALLATION
A. The Contractor shall start up each piece of equipment and system and shall make all
adjustments so that the system is placed in proper operating condition.
B. The Contractor shall not install any equipment or materials until the Owner and Engineer have
approved all submittals. If any equipment or materials are installed prior to approval of the
submittals, it shall be at the Contractor's risk.
C. Equipment
1. Install equipment in accordance with manufacturer's recommendation. Provide piping and
ductwork connections in accordance with the requirements as specified elsewhere in this
Section.
2. When units are shipped disassembled, field connect all sections together as shown on the
Drawings to form single air handling unit. Seal all joints with gaskets and/or sealants.
3. Do not operate equipment without filters. Do not run equipment with dirty filter pressure
drop more than twice clean filter pressure drop. A total of three complete sets of filters
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 46 June 2016
shall be provided. The first set is to be installed for start-up, test and balancing. The second
set shall be installed after final cleanup and acceptance by the Owner. The third set shall be
turned over to the Owner as a spare.
4. The Contractor shall start up each piece of equipment and system and shall make all
adjustments so that the system is placed in proper operating condition.
D. Insulation - General
1. Do not apply insulation prior to testing and acceptance of piping, ductwork and/or
equipment. Insulation shall not be applied to damp or frosty surfaces. Clean dust, dirt,
grease and moisture from surfaces of pipe and ducts before applying insulation or
insulation adhesives. Install all insulation in a neat and workmanlike manner. Nameplates
and equipment certification and data tags affixed to any piece of apparatus must remain
exposed to view. Where two layers of insulation are used, stagger all joints both ways.
Secure each layer independently. Continue insulation through walls, partitions, floors and
pipe sleeves.
2. The recommendations and instructions of the manufacturers of products used in the work
are hereby made part of this Section except as they may be superseded by other
requirements of this Section.
3. Adhesives, coatings and vapor barrier materials shall be applied as specified by the
manufacturer. Do not apply these materials when ambient temperature is above or below
the maximum and minimum ambient temperature respectively, specified as limits by the
manufacturer. In general, these limits are 90 degrees F and 40 degrees F, however, the
limitations are to be checked for each product.
4. All penetrations through a vapor barrier for hangers, instruments, etc, shall be sealed to
provide a complete vapor barrier. The use of staples or other fasteners that penetrate the
vapor barrier shall not be permitted.
5. Insulation systems that require a vapor barrier shall be installed with an intact vapor barrier
that covers the entire pipe, duct, or piece of equipment to be insulated. All edges of
insulation that do not abut another piece of insulation shall have the vapor barrier extended,
and sealed to the item being insulated. All penetrations through the insulation such as for
thermowells, test ports, dampers, nameplates, or other items shall have the vapor barrier
extend over the edges of the insulation and sealed to the item being insulated. Where items
are mounted on ductwork a standoff shall be provided to protect the vapor barrier. The
vapor barrier shall be sealed to the standoff.
6. For insulated items exceeding 100 square feet, or 20 feet in length, extend the vapor barrier
to the item being insulated to reduce the area or length within a single enclosed area to the
dimensions listed above.
E. Piping Insulation Cold Piping Closed Cell Foam
1. Apply insulation in thicknesses indicated. Joints shall be sealed using self-sealing seams or
adhesive.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 47 June 2016
2. Fittings shall be covered with the same insulation, mitered to fit.
3. Installation - Apply insulation in the thickness indicated. Attach insulation to sheet metal
duct. Joints shall be made to have compression fit with the joints sealed with adhesive.
Manufacturer’s installation instructions shall be followed. Adhesives and coatings shall be
provided by the insulation manufacturer and shall be compatible with the insulation.
Insulation shall be provided with a protective finish for outdoor use in accordance with
manufacturer’s recommendations.
Service Pipe Size Insulation Thickness
Refrigerant Piping All sizes 1 – in.
Condensate Drain Piping – All sizes 1 – in.
Air Conditioners]
F. Ductwork Insulation
1. For purposes of insulation, flexible ductwork shall be treated as sheet metal ductwork.
2. Provide all cold ductwork with a vapor barrier. Where the method of attachment causes
penetrations of the vapor barrier, seal such penetrations with vaporseal adhesive and vapor
barrier tape.
3. Clips, pins, washers, staples, and other metal components shall be of the same material as
the duct to be insulated. Where items of the same material are not available, a material of
equal corrosion resistance may be used. If a different material of equal corrosion resistance
is to be used, it must be approved by the Engineer.
4. All outside corners of ductwork in the traffic level shall be protected by sheet metal angles.
Angles shall be 22 gauge galvanized steel with 2-in legs. When the duct is constructed of
materials other than galvanized steel, the protective angle shall be fabricated of the same
material as the duct, or of equal corrosion resistance. If a different material of equal
corrosion resistance is to be used, it must be approved by the Engineer. Angles shall be
attached to the outside of the vapor barrier with adhesive. The entire inside surface of the
corner angle shall be coated with adhesive before being installed.
5. All joints in insulation shall be compressed 0.25-in. Corner insulation shall be lapped with
the overlap extending over the full thickness of the insulation layers. Open spaces in joints
are not acceptable. A minimum of two layers of insulation shall be used when the required
insulation thickness is greater than 2-in. Joints in adjacent layers shall be staggered a
minimum of 3-in.
6. All ductwork shall be insulated unless approved in writing by the Engineer. Double-wall
insulated ductwork does not require additional external insulation.
G. Ductwork Insulation - Blanket Type
1. Concealed Round and Rectangular Single Wall Ductwork and Exposed Round Single Wall
Ductwork
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 48 June 2016
a. Installation - Apply insulation in the thickness listed below. Adhere insulation to the
duct surface with adhesive applied in strips 6-in wide on 12-in centers. Butt all joints
and lap jacket 2-in over adjoining jacket. Seal all lap joints with vaporseal adhesive
and staples. For ducts 30-in wide and over, additionally support insulation on bottom
of duct with rows of welded or adhesive clips and washers on 18-in centers. Seal
penetrations, staples and terminations of vapor barrier with vapor barrier coating.
b. Insulation Thickness - Concealed Round and Rectangular Single Wall Ductwork and
Exposed Round Single Wall Ductwork.
1) All ducts 2-in
H. Ductwork Insulation - Fiberglass Board Type
1. Exposed Rectangular Single Wall Ductwork and Plenums.
a. Installation - Apply insulation in the thickness listed below. Fasten insulation to sheet
metal duct with weld pins or approved adhered pins and clip washers. Place pins on
12-in centers located near edge of insulation and with a minimum of two rows per
side. Impale insulation on pins. Attach clip washers so that they rest on the surface of
the insulation without indent. Cut off pins flush with surface of washers. Seal
penetrations with aluminum vapor barrier coating. Groove insulation to cover standing
seams or stiffeners. Extend vapor barrier facing continuously over standing seams or
stiffeners to provide continuous seal. Seal joints and edges with 4-in wide strip of
factory furnished vapor barrier facing adhered with vapor barrier adhesive or
approved vapor barrier duct sealing tape to provide a continuous vapor barrier.
b. Insulation Thickness - Exposed Rectangular Single Wall Ductwork and Plenums.
1) All ducts 2-in
I. Installation of Ductwork
1. Fabricate and erect all ductwork where shown on the Drawings, as specified herein and in
accordance with SMACNA requirements. Rigidly support and secure ductwork in an
approved manner. Install hangers plumb and securely suspended from supplementary steel
or inserts in concrete slabs. Sufficiently thread lower ends of hanger rods to allow for
adequate vertical adjustment. Do not use building siding and metal decking to hang
ductwork.
2. Wherever ducts are divided, maintain the cross-sectional area. All such changes must be
approved and installed as directed by the Engineer or as approved on shop or erection
drawings.
3. During installation, close the open ends of ducts to prevent debris and dirt from entering.
Install work in accordance with the overall approved progress schedule and in cooperation
with all other trades so there will be no delay to other trades.
4. Provide the unused portion of external louvers (where it is not used as a fresh air intake or
exhaust) with a blank-off constructed of 0.0625-in aluminum. Provide blank-off panels
with aluminum reinforcing angles to prevent buckling and secured to the exterior wall with
aluminum angles and rustproof fasteners on not more than 12-in centers. Provide caulking
completely around the outside edge of the angle and the aluminum.
5. Install automatic dampers when supplied by other trades.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 49 June 2016
6. Cross-break sheet metal in accordance with SMACNA duct construction standard. Apply
cross-breaking to the sheet metal between the standing seams or reinforcing angles. The
center of the cross-break shall be of the required height to assure each panel section being
rigid.
7. Cross-break steamlined ducts on top only and adequately brace internally.
8. Beading as specified in SMACNA will be acceptable in lieu of cross-breaking.
9. The Drawings of the air ducts and air risers show the general location for installation of the
ducts and risers. Should additional offsets or changes in direction be made, these changes
must be considered in the original bid and shall be installed at no additional cost to the
Owner.
10. All necessary allowances and provisions shall be made in the installation of the ducts for
the structural conditions of the building. Ducts shall be transformed or divided as may be
required. Wherever this is necessary, maintain the cross-sectional area. All of these
changes, however, must be approved and ducts installed as directed by the Engineer or as
approved on shop or erection drawings.
11. The taper of all transformations shall be not more than 15 degrees.
12. Secure casing to curbs according to SMACNA Duct Construction Standards.
13. Provide baffle plates as required to prevent stratification and to provide proper operation of
controls.
14. Where ducts are constructed of materials other than galvanized steel the reinforcing
members shall be of the same material as the ductwork.
15. For PVC ductwork where reinforcing members of material other than PVC are required,
totally encase the reinforcing member in PVC.
16. The use of button punching or snap locks on ductwork constructed of aluminum shall not
be permitted.
J. Hangers
1. The use of wire to hang flexible ductwork shall not be permitted.
2. Ductwork shall not come in contact with any of the ceiling construction or any other
equipment in the ceiling cavity.
K. Sealing of Ductwork
1. General – Unless, otherwise indicated, seal all ductwork joints and seams using sealant in
accordance with the instructions of the sealant manufacturer and this Section. All
transverse seams, joints and fitting connections, both shop and field assembled, shall be
sealed in accordance with this Section. Not more than one longitudinal seam shall be
unsealed in each section of duct.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 50 June 2016
2. Application of Sealant - Thoroughly clean all seams, joints, etc, of dirt, oil, grease, or other
coatings which might interfere with the adhesion of the duct sealant before the sealant is
applied.
3. Uncured sealant may be forced into the slotted side of the seam or joint before shop or field
assembly, and the joint or seam completed while the sealant is still uncured. Excess sealant
shall be removed from both the inside and outside of the duct before it sets.
4. Duct Tape - Use of duct tape alone for sealing ductwork is prohibited. Duct tape may be
used primarily for the purpose of retaining the uncured duct sealant in seams and joints
until it has cured. Duct tape shall not be applied to the inside of any duct nor shall it be
applied to standing type joints at any time. All duct tape used shall be compatible with the
sealant.
5. Sealant shall be either in liquid form or a mastic with a maximum flame spread of 25 and a
maximum smoke developed rating of 50 when tested in accordance with ASTM E84,
NFPA 255 and UL 723.
6. Sealing systems shall be suitable for the environment. The following schedule is to be used
to select the sealant.
a. Indoor, dry galvanized round and rectangular duct is to be sealed with Iron Grip 601
or equal.
b. Indoor, dry, stainless steel, aluminum and PVC coated is to be sealed with FTA 20
adhesive and DT-Tape gypsum or equal.
c. All other areas unless otherwise noted are to be sealed with FTA 50 adhesive and DT-
Tape gypsum or equal.
d. All sealers listed or manufactured by Hardcast Inc. and are to define the type of sealer.
Other equal sealants are acceptable.
L. Ductwork Fittings and Accessory Items
1. Duct Elbows - Rectangular ductwork where full radius elbows cannot be installed, provide
abrupt elbows equipped with shop-installed hollow, air foil turning vanes.
2. Flexible Connectors
a. Install flexible connectors at all duct connections to fans, fan units or blowers, air
handling units and air conditioning units. Make connections substantially air tight at
all seams and joints.
b. Where the construction of the flexible connection or vibration isolator results in a
cross sectional area of the connection which is less than 90 percent of the adjacent
ductwork, the size of the connection shall be increased to provide a cross sectional
area equal to or greater than 90 percent of the adjacent duct.
c. Provide flexible duct connections at both the intake and discharge connections for all
fans and air handling units except as noted below:
1) Wall and roof fans that have integral motor/fan wheel isolation.
2) Air handling units where the fan is isolated from the intake and discharge
connections by internal flexible connections or separations, and the unit is
mounted without vibration isolators between the unit and the support structure.
3. Dampers
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 51 June 2016
a. Install manual volume control dampers wherever it may be necessary to regulate air
volume for system air balancing and where shown on the Drawings.
b. Install splitter dampers, where shown on the Drawings, to regulate air volume for
system air balancing. Splitter dampers shall be single blade, end pivoted type, manual
adjustment and position locking arrangement.
c. Factory-fabricated volume extractors shall be used at all supply air diffusers.
d. An access door, of ample size to permit maintenance and resetting of damper blades,
shall be installed at each opposed blade damper, splitter damper and volume extractor
so located for easy access to the damper blades.
4. Access Doors
a. Provide access doors at the following locations (minimum requirements):
1) Automatic dampers - linkage side.
2) Duct mounted temperature controllers.
3) Freeze-stats.
4) Fire dampers.
5) Smoke dampers.
6) Filter banks.
7) Smoke Detectors
8) Flow Sensors
b. Where access doors are required in ductwork located above ceilings, coordinate the
location of the access doors to clear the ceiling support system and to be accessible
through the ceiling grid.
M. Grilles, Registers and Diffusers
1. The location of diffusers, registers and grilles shall be as shown on the Reflected Ceiling
Plans. Where diffusers, registers and grilles are not located in the ceiling, there are no
Reflected Ceiling Plans provided, the location shall be as shown on the ductwork drawings.
The exact location of these devices shall be determined in the field in cooperation with the
other trades.
2. Install all devices in an approved manner in accordance with the manufacturer's
recommendation.
N. Flexible Ductwork
1. Make connections, joints and terminations air tight as recommended by the manufacturer.
Where joints are made to rigid sheet metal ductwork, apply 3M Company EC-800 sealer
and the joint shall be drawn tight with a drawband. Collars shall be 2-in long minimum and
sleeves shall be 4-in long minimum.
2. Install flexible ducts with one duct diameter-radius elbows and cut as short as possible.
Duct shall not be compressed and the length shall be kept short so minimum hangers or
supports are required, and static pressure losses are kept to a minimum. Sag in flexible duct
shall not exceed 1/2-in/ft between duct supports.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 52 June 2016
O. Filling in Space Around Ductwork
1. To prevent sound passing through the area between the duct and the framed or cut opening
in the floors, walls or partitions, pack mineral wool to completely fill the space the full
depth of the opening. Whenever a fire-rated wall or floor is penetrated, fill the space
around the duct with a locally approved type of fireproof rope.
2. At firewalls, apply galvanized sheet metal escutcheon plates on both faces of the wall to
close the gap between the structure and the sides of the insulated or bare duct.
P. Duct Supports Through Floors
1. Where vertical ducts pass through floor openings, rigidly attach supporting angles to the
ducts and anchor with expansion bolts to the floor or curb. Angles shall be of the same
material as the duct for metal duct and stainless steel for non-metallic ducts, placed on the
two long sides of the duct extending 3-in over edge of opening, and shall not be less than
the sizes recommended by SMACNA. Remaining open areas shall be filled in with a plate
of the same material as the angles.
Q. Supporting Outdoor Ducts
1. Provide the ducts installed above roof with angle iron supports. Sizes of angles shall be as
shown on the Drawings.
2. The vertical supporting angles shall be continuous full height of the duct and shall be
bolted to same. These, together with intermediate supporting angle as required, shall be
provided with bottom plates which shall be welded to the vertical angles. Attach the plates
with anchor bolts to sleepers, which shall be placed on scraped roofing. Weld all of these
angles together to form a stiff continuous supporting unit for the duct. Paint angles with
oxide primer after installation.
3. Slope ducts to shed water.
4. Duct supports shall be designed and installed to meet wind loading requirements as
described in Part 2.
R. Ductwork at Masonry
1. Where ducts connect to, or terminate at masonry openings, or along the edges of floors
where concrete curbs are not being provided, place a continuous 2-1/2-in by 2-1/2-in by
3/16-in galvanized angle of the same material as the duct around the ductwork. Then bolt
the angle to the construction and make airtight to same by applying caulking compound on
the angle before it is drawn down tight to construction.
2. Fasten plenums to concrete curbs with 3-in by 3-in by 1/4-in thick continuous angle. This
angle shall sit on a continuous bead of caulking compound and be anchored to the curb at
16-in centers. Terminate the sheet metal at the curb and bolt to the angle. Seal the sheet
metal to the curb with a continuous bead of caulking compound.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 53 June 2016
3. When exposed ducts pass through finished floors, walls or ceilings, provide angle collars
completely covering space around duct.
S. Quality of Ductwork Installation
1. All ductwork shall be free from pulsation, chatter, vibration or objectionable noise. After
system is in operation, should these defects appear, correct by removing, replacing or
reinforcing the work. Sound levels shall not exceed the minimum requirement as specified
in ASHRAE 1980 Systems Volume, page 35.16, Table 23. No discreet tones will be
allowed.
2. The maximum allowable leakage of low pressure system shall be 5 percent of air volume.
T. Plenums
1. Seal fresh air inlet and exhaust air plenums at louvers or otherwise subject to weather
entrainment watertight at all bottom joints and seams and up all vertical seams for a
minimum of 12-in. After application, remove excess sealant before it sets hard. Where
possible, pitch fresh air inlet and exhaust air plenums down towards the louver. Where it is
not possible to pitch the plenum, provide a 1-in capped drain connection at the low point of
the plenum.
U. Test Ports
1. Where shown on the Drawings and where required for testing and balancing, provide
instrument insertion ports. Size and location of ports shall be coordinated with the
Contractor performing air balancing. Seal ports with plastic snap lock plugs. When the
ductwork will be insulated, extend the port to the face of the insulation and seal the vapor
barrier to the port. When the ductwork is lined, extend the port into the duct to the inner
surface of the duct liner.
2. In round ductwork provide 2 ports 90 degrees on centers. In rectangular ductwork provide
ports are required by AABC or NEBB for a full traverse measurement.
3. As a minimum, ports shall be provided in the following connections:
a. All duct mains.
b. All duct branches unless all connections are diffusers, registers, or grilles and the total
can be calculated by summing the readings for all of the connections.
c. All connections to tanks or hoods where there is no other access for taking a
measurement.
4. A main duct is defined as one of the following:
a. A duct serving five or more outlets.
b. A duct serving two or more branch ducts.
c. A duct emanating from a fan or plenum.
d. All remaining ducts are considered branch ducts.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 54 June 2016
V. Piping
1. Pipe and Fittings
a. Install piping in a neat manner with lines straight and parallel or at right angles to
walls or column lines and with risers plumb. Run piping so as to avoid passing
through ductwork or directly under electric light outlets and/or interference with other
lines or extending beyond furring lines as determined by Architectural Drawings.
Accomplish all work using the best methods and procedures of recognized pipe
fabrication in a good and workmanlike manner in accordance with the latest revision
of applicable ANSI Standards, ASME Codes and PFI Standards.
b. Cut pipe square, not upset, undersize or out of round. Carefully ream ends and clean
before installing.
c. Bending of pipe shall not be permitted. Use fittings for all changes in direction.
d. Do not remove end caps on pre-cleaned pipe until immediately before assembly. Cap
all open ends immediately after completion of installation.
e. Thoroughly clean all piping interiors after installation and keep them clean by
approved temporary closures on all openings until the system is put in service.
Closures shall be suitable to withstand the hydrostatic test.
2. Soldering (Copper Tubing)
a. After cutting, thoroughly clean all surfaces to be soldered to a metal-bright finish, free
from dirt, grease or other material before fluxing and soldering. Perform this cleaning
by using emery cloth, sandpaper or steel wool. Clean the outside end of the tubing for
a length of 1/2-in greater than the depth of the fitting. Clean the inside of the fittings
in a similar manner. Apply non-corrosive flux and assemble the joint. Acid solder or
acid flux will not be accepted.
b. Heat the surfaces to be joined slowly and uniformly to the melting point of the solder.
Maintain the surface being soldered above the melting point of the solder for
sufficient time to draw the solder completely into the joint. When the solder congeals
to a plastic state, remove the excess metal with a cloth brush, leaving a fillet around
the end of the fitting. Full penetration of the solder uniformly throughout the entire
socket is required. Allow the soldered joints to cool in still air until only warm to the
hand, after which the work may be quenched.
c. Any type of crack, pinhole, area of incomplete penetration, or similar defect will not
be accepted. Peening for closing up defects shall not be permitted.
d. Use heating torches of sufficient size for heating of large fittings prior to soldering.
Multiple tips or ring burners for use on combination torches may be used.
e. Remove all external and internal loose solder and flux after joint cools.
3. Refrigerant Piping
a. Before and during silver soldering refrigerant piping, purge the assembly of pipe and
fittings with dry nitrogen, to avoid formation of oxidation scale on inside of pipe
during soldering.
b. Where specially prepared, Type R, cleaned or charged refrigerant piping is not
available for equipment interconnection, with the [Engineer's] [Owner's
Representative's] approval, the following procedure must be completed. Clean the
interior of field assembled refrigerant piping after joining in four steps as follows:
1) Draw a clean lintless cloth through the piping to remove coarse dirt and dust.
2) Draw clean lintless trichlorethylene saturated cloth through the piping until cloth
is not discolored with dirt.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 55 June 2016
3) Draw a clean cloth saturated with compressor oil through the piping.
4) Complete cleaning by drawing a clean, dry, lintless cloth through the piping.
c. Pressure test and charge immediately after cleaning.
3.02 FIELD TESTING
A. Testing and Balancing
1. General - Test, adjust and balance all HVAC systems. If required by the Engineer, tests
shall be made during the progress of the work to demonstrate the strength, durability and
fitness of the installation. Furnish all instruments, ladders, lubricants, test equipment and
personnel required for the tests; including manufacturer's representatives for testing and
start-up of all Contractor supplied equipment. Before testing and balancing, all systems
shall be cleaned as specified. Submit four copies of records of all tests, measurements,
settings of throttling devices and nameplate data to the Engineer.
2. Final Tests - Perform tests of all systems as required by the Engineer prior to final
acceptance of the systems for the purpose of demonstrating satisfactory functional and
operating efficiency as well as adjustment. During this period, check the setting of all
automatic controls and take sufficient measurements to ensure that conditions are correct
and that capacities are adequate to meet the specified requirements. Systems will not be
considered complete until all tests have been concluded to the satisfaction of the Engineer
and all other parties having jurisdiction. In event of leakage or defects, repeat tests until all
faults are corrected. Perform the general operating tests under as near design conditions as
possible.
3. Perform all testing, adjusting and balancing under the supervision of a qualified heating,
ventilating and air conditioning engineer employed by the air balance and testing agency.
Reporting forms for testing and balancing shall be as recommended by the AABC or
NEBB.
4. Coordination of the test shall be the responsibility of the balancing sub-contractor. Access
to the site, availability of service representatives, and tenant acquiescence will be
considered in the determination of both the testing schedule and the witnessed recheck of
the balancing.
5. Refer to Section 15990 for additional requirements.
B. Piping Pressure Testing
1. Pipe Testing Procedure
a. The equipment to which any piping system is attached shall not be subject to any line
tests. Either remove or blank off items which may be damaged by the test pressure.
The test pressures apply to the piping materials as specified, but shall not be assumed
to apply to piping specialties, accessories, or equipment including safety heads,
rupture discs, relief valves, expansion joints, instruments or filters.
b. Prior to pressure testing, take the following precautions:
1) Do not apply insulation over piping prior to completion of testing.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 56 June 2016
2) Lines containing check valves shall have the source of test pressure located on
the upstream side. Set the control valves in the open position for the duration of
the test.
3) Block up all piping supported by springs temporarily to a degree sufficient to
sustain the test liquid load.
c. Test the piping system at the pressure indicated in the individual pipe material
specification section or 1-1/2 times normal working pressure, whichever is greater for
the respective systems. Leakage or loss of head will not be acceptable.
2. Condensate Drains Testing
Test Press. Medium Duration Allowable Loss
10 Feet Column Water 2 hrs None
10 Inch Mercury Air 15 min. None
3. Refrigerant Piping Testing
Test Press. Medium Method
To suit Inert gas Electronic
Refrigerant used and refrigerant leak detector
4. Following the completion of acceptable leak testing, evacuate and charge the completed
refrigeration system in accordance with the manufacturer's recommendations.
3.03 START-UP AND TEMPORARY OPERATION
A. Properly maintain and service all equipment and systems until the particular equipment or the
system has been accepted by the Owner.
3.04 BALANCING OF ROTATING EQUIPMENT
A. All machines shall be balanced both statically and dynamically by the manufacturer within the
limits of best commercial practices. The term machine, as used above, is to be considered as any
piece of equipment, which contains rotating components. All machines furnished shall have
operating speed not exceeding 80 percent of the first critical speed.
3.05 PAINTING
A. The Contractor shall be responsible for the repair of all defects, blemishes, holidays and the like
apparent in manufacturer's coatings and shall ensure that materials used for such repair shall
match or be compatible with the manufacturer's standard color, coatings and practices. Do not
paint over nameplates.
B. Paint black the louver side of all louver blank off panels and the interiors of unlined plenums
and ductwork where connected to louvers.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 57 June 2016
3.06 AUTOMATIC TEMPERATURE CONTROL SYSTEM INSTRUCTION AND
ADJUSTMENT
A. Upon completion of the project:
1. Completely adjust and calibrate, ready for use, all thermostats, damper operators, relays,
thermometers, recorders, etc., provided under this Section.
2. Furnish four instruction manuals covering the function and operation of the control and
automation systems on the project for the use of the Owner's operating personnel. A
competent technician shall be provided for a period of 8 hours for instruction purposes. If
the Owner requests the services of the technician beyond the 8 hour period, the Owner
shall pay a per diem charge which is to be included in the proposal for such services.
B. System contractor shall provide complete system documentation at acceptance time.
Documentation shall be provided in four sets unless otherwise elsewhere in this Section.
Documentation shall include the following:
1. Data specified in the submittal paragraph above, in its final as-built approved form.
2. As-built interconnection wiring diagrams, wire lists, or list of the complete field installed
system with complete, properly identified, ordering number of each system component and
device.
C. Training:
1. Manufacturer shall provide training for the operation and maintenance of the automatic
control systems. Each trainee shall be provided with a full set of instructional materials and
operating manuals for each of the various courses in which he is trained. In addition, 2
complete additional sets of the training manuals are to be provided.
2. Training sessions are to be scheduled with the Owner to maintain required plant operating
coverage. If required to maintain coverage, the classes shall be split into multiple sessions.
3. Use of onsite facilities for training is to be approved by and scheduled with the Owner.
4. Manufacturer shall provide all terminals required for hands-on laboratories.
a. Manufacturer shall provide a 1 to 2 day course for personnel that will be operating the
system. Material covered will include:
1) Basic instruction in the computer operating system, system operations that do not
require programming or set point changes, and generation of data files and
reports.
2) Instruction in trouble shooting and repair of the mechanical components.
3) Instruction in trouble shooting and repair of the electrical and digital components.
4) Instruction in the basic programming for the system, and the function and effects
of the various operating parameters.
b. The course shall be a combination of classroom and hands-on work with the computer
terminals and equipment.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15500 - 58 June 2016
3.07 AUTOMATIC TEMPERATURE CONTROL SYSTEM ACCEPTANCE PROCEDURE
A. Upon successful completion of the system, the Owner’s Representative shall be requested, in
writing, to inspect and approve the satisfactory operation of the ATC system, sub-system(s) and
accessories.
B. Upon receipt of a detailed punch list from the Owner’s Representative, an installation inspection
report shall be prepared showing each outstanding item on the punch list. After all items
appearing on the installation inspection report are completed, a second written request for
system approval shall be made to the Owner’s Representative. As each or all items are
approved, an appropriate notation shall be entered at the time of joint inspection on the system
report, with counter signature of the Owner’s Representative and date. A copy of this report
shall be made for the Owner’s Representative.
C. Problems which occur within approved hardware shall be corrected in an appropriate fashion
under guarantee. Any such occurrence shall not void previous approval; however, the system
contractor shall be responsible to attend to and remedy such items within a reasonable amount
of time. Appropriate logs, schedules, and reports shall be maintained to reflect these items and
their redress.
D. During the acceptance inspections, the System Supplier shall provide the required personnel to
operate the system and show complete functionality. The System Supplier shall also provide the
required communication devices to allow simultaneous observations at multiple points. In
general each system shall be run through its complete operating sequence.
E. Functional acceptance testing shall be halted for systems that are found to be operating
incorrectly. Corrections shall not be made during the inspection. If multiple systems are found
to have operating deficiencies, the acceptance testing shall be canceled and rescheduled at the
System Supplier's expense.
F. Manufacturer hours budgeted for the "Acceptance Procedure" shall be submitted for evaluation
during the bid process.
3.08 CLEANING
A. Leave all piping, ductwork and equipment in a thoroughly cleaned condition. Thoroughly flush
all piping to remove all foreign materials prior to any cleaning procedure. All flushing and
cleaning shall be to the satisfaction of the Engineer. Furnish, install and remove all temporary
piping and equipment used in the cleaning and flushing operations.
B. Maintain all ductwork, fans, coils, air filters, outlets and other parts of the ductwork systems in
a clean condition during installation.
C. Clean complete ductwork systems prior to testing and air balancing. Secure cheese cloth over
all openings of the ductwork system for entrapment of dirt during the cleaning operation.
END OF SECTION
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 1 June 2016
SECTION 15503
HVAC – DEMOLITION
PART 1 GENERAL
1.01 SCOPE OF WORK
A. Provide all labor, materials, equipment and incidentals required and remove and dispose of the
HVAC systems, including ductwork, piping, insulation, controls and equipment, in the existing
Operations Building as indicated on the Drawings and as specified herein.
B. Included, but not limited to, are demolition, modifications and removal of existing materials,
equipment or work necessary to install the new work as shown on the Drawings and as specified
herein and to connect with existing work in approved manner.
C. Provide all HVAC demolition work associated with the removal of equipment from the existing
facilities, including disconnecting and removing all piping and ductwork to equipment being
removed under other related Sections.
D. Provide all work associated with the relocation of equipment for the existing and new facilities.
E. The existing systems shall remain in service until they have been replaced by new or temporary
systems.
1.02 RELATED WORK
A. Summary of Work is included in Division 1.
B. Submittals are included in Division 1.
C. Construction Schedule is included in Division 1.
1.03 SUBMITTALS
A. Submit, in accordance with Division 1, copies of proposed methods and operations of
demolition of the structures and modifications prior to the start of work. Include in the schedule
the coordination of shutoff, capping and continuation of utility service as required.
B. Furnish a detailed sequence of demolition and removal work to ensure the uninterrupted
progress of the Owner's operations. Sequence shall be compatible with sequence of construction
and shutdown coordination requirements as specified in Division 1.
C. Before commencing demolition work, all modifications necessary to bypass the affected
structure shall be completed. Actual work shall not begin until the Owner has inspected and
approved the modifications and authorized commencement of the demolition work in writing.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 2 June 2016
1.04 JOB CONDITIONS
A. Protection
1. Execute the demolition and removal work to prevent damage or injury to structures,
occupants thereof and adjacent features which might result from falling debris or other
causes, and so as not to interfere with the use, and free and safe passage to and from
adjacent structures.
2. Closing or obstructing of roadways, sidewalks and passageways adjacent to the work by
the placement or storage of materials will not be permitted and all operations shall be
conducted with a minimum interference to traffic on these ways.
3. Erect and maintain barriers, lights, sidewalk sheds and other required protective devices.
B. Scheduling
1. Carry out operations so as to avoid interference with operations and work in the existing
facilities.
C. Notification
1. At least 48 hours prior to commencement of a demolition or removal, notify the Owner in
writing of proposed schedule therefor. Owner shall inspect the existing equipment and to
identify and mark those items which are to remain the property of the Owner. No removals
shall be started without the permission of the Owner.
D. Conditions of Structures
1. The Owner and the Engineer assume no responsibility for the actual condition of the
structures to be demolished or modified.
2. Conditions existing at the time of inspection for bidding purposes will be maintained by
the Owner insofar as practicable. However, variations within a structure may occur prior to
the start of demolition work.
E. Repairs to Damage
1. Promptly repair damage caused to adjacent facilities by demolition operation when
directed by Owner and at no additional cost to the Owner. Repairs shall be made to a
condition at least equal to that which existed prior to construction.
F. Traffic Access
1. Conduct demolition and modification operations and the removal of equipment and debris
to ensure minimum interference with roads, streets, walks both onsite and offsite and to
ensure minimum interference with occupied or used facilities.
2. Special attention is directed towards maintaining safe and convenient access to the existing
facilities by plant personnel and plant associated vehicles.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 3 June 2016
3. Do not close or obstruct streets, walks or other occupied or used facilities without
permission from the Owner. Furnish alternate routes around closed or obstructed traffic in
access ways.
1.05 RULES AND REGULATIONS
A. The requirements of the International Building Code shall control the demolition, modification
or alteration of the existing building, structures, and equipment.
B. No systems shall be demolished until an application has been filed with the Building Inspector
and a permit issued. The fee for this permit shall be the Contractor's responsibility.
1.06 DISPOSAL OF MATERIAL
A. Coordinate salvage and disposal of material and equipment with the requirements of Division 1
and the Owner.
PART 2 PRODUCTS (NOT USED)
PART 3 EXECUTION
3.01 GENERAL
A. The existing HVAC systems, including piping, ductwork and equipment, shall remain in
operation until the new or temporary systems are placed in service. All systems shall be
maintained without interruption. The demolition and removal work shall be coordinated with
the construction schedule for new work.
B. Removal and relocation of existing HVAC systems have not been fully detailed on the
Drawings. Trace out piping systems to be relocated or removed and perform the relocation and
removal work as required to provide complete and safe operating systems.
C. Dispose of all demolition materials, equipment, debris and all other items not marked by the
Owner to remain, off the site and in conformance with all existing applicable laws and
regulations. Provide the Owner with receipts verifying acceptable disposal of any legally
regulated materials and equipment.
D. Pollution Controls
1. Use temporary enclosures, covers, and other suitable methods to limit the amount of dust
and dirt rising and scattering in the air to the lowest practical level. Comply with governing
regulations pertaining to environmental protection.
a. Clean adjacent structures, facilities, and improvements of dust, dirt and debris caused
by demolition operations. Return adjacent areas to conditions existing prior to the start
of the work.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 4 June 2016
3.02 WORK INCLUDED
A. In general, the work includes removal and disposal of:
1. Ductwork, piping, insulation and equipment including their hangers, supports. Piping and
ductwork shall be capped or plugged at the service indicated to remain.
2. All piping that is to be removed shall be removed back to the next live branch or main and
plugged or capped whether or not indicated on the Drawings.
3. Permanent closure of roof and exterior wall openings left by removal of piping, ductwork,
flues and equipment.
4. Disconnecting electrical equipment and removal of non-control wiring.
5. Removal of temperature control equipment and wiring.
B. Demolition shall include:
1. Ductwork with insulation, hangers and terminal devices.
2. Refrigerant piping.
3. Fans.
4. Air Handling Units.
5. Heat Pump/Air Cooled Condensing units.
6. Control components.
7. Electrical components and wiring.
3.03 DEMOLITION AND REMOVAL
A. Remove all HVAC work associated with equipment scheduled for demolition except portions
indicated to remain.
B. Remove abandoned piping, ductwork and insulation back to the source or nearest point of
usage, including piping above accessible ceiling finishes and in chases.
C. Where HVAC systems pass through demolition areas to serve other areas of the premises, they
shall be maintained or suitably relocated to provide normal service.
D. Existing piping not required for the new work shall be removed where shown or where it will
interfere with new work. Piping not indicated to be removed or which does not interfere with
new work shall be removed to the nearest solid support, capped and left in place. Where piping
that is to be removed passes through existing walls, it shall be cut off and properly capped on
each side of the wall.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 5 June 2016
E. When underground piping is to be altered or removed, the remaining piping shall be properly
capped. Abandoned underground piping may be left in place unless it interferes with new work
or is shown or specified to be removed.
3.04 ELECTRICAL REMOVALS
A. Electrical removals shall consist of the removal of existing control panels, motors, conduits and
wires, and miscellaneous electrical equipment all as shown on the Drawings, specified herein,
or required to perform the work.
B. All existing electrical equipment and fixtures to be removed shall be removed with such care as
may be required to prevent unnecessary damage, to keep existing systems in operation and to
maintain the integrity of the grounding systems.
C. Conduits and wires shall be abandoned or removed where shown. All wires in abandoned
conduits shall be removed, salvaged and stored. Abandoned conduits concealed in floor or
ceiling slabs or in walls, shall be cut flush with the slab or wall at the point of entrance. The
conduits shall be suitable plugged and the area repaired in a flush, smooth and approved
manner. Exposed conduits and their supports shall be disassembled and removed from the site.
Repair all areas of work to prevent rust spots on exposed surfaces.
D. Where shown or otherwise required, wiring in the underground duct system shall be removed.
All such wiring shall be salvaged and stored as specified. Verify the function of all wiring
before disconnection and removing it. Ducts which are not to be reused shall be plugged where
they enter buildings and made watertight.
E. Wall switches, starters and other miscellaneous electrical equipment, shall be removed and
disposed of off the site as required. Care shall be taken in removing all equipment so as to
minimize damage to architectural and structural members. Any damage incurred shall be
repaired.
3.05 CLEAN-UP
A. Remove from the site all debris resulting from the demolition operations as it accumulates.
Upon completion of the work, all materials, equipment, waste and debris of every sort shall be
removed and premises shall be left, clean, neat and orderly.
END OF SECTION
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15503 - 6 June 2016
THIS PAGE INTENTIONALLY LEFT BLANK
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 1 June 2016
SECTION 15520
HVAC – ELECTRICAL REQUIREMENTS
PART 1 GENERAL
1.01 SCOPE OF WORK
A. Furnish all labor, materials and equipment required to install complete and make operational,
electrical systems associated with the HVAC system replacement as specified, and as shown on
the Drawings.
B. Refer to Section 15500 for additional requirements.
C. The work shall include furnishing and installing the following:
1. Conduit, wire and field connections for all motors, motor controllers, control devices, control
panels and electrical equipment furnished under other Divisions of these Specifications.
2. Power wiring for all heating, ventilating, and air conditioning (HVAC) equipment
furnished under Division 15, including power wiring for thermostats, fan motors, dampers
and other HVAC inline unit wiring shown on the Drawings.
3. It is the intent of these Specifications that the electrical system shall be suitable in every
way for the service required. All material and all work which may be reasonably implied as
being incidental to the work of this section shall be furnished at no extra cost.
4. Coordinate the sequence of demolition with the sequence of construction to maintain plant
operation in each area. Remove and demolish equipment and materials in such a sequence
that the existing and proposed plant will function properly with no disruption of treatment.
D. Each bidder or their authorized representatives shall, before preparing their proposal, visit all
areas of the existing buildings and structures in which work under this bid is to be performed
and inspect carefully the present installation. The submission of the proposal by this bidder shall
be considered evidence that they have visited the site, buildings and structures and noted the
locations and conditions under which the work will be performed and that they takes full
responsibility for a complete knowledge of all factors governing his/her work.
E. Provide all electrical demolition work associated with the removal of equipment from the
existing facilities, including disconnecting and removing all electrical wiring and conduit to
equipment being removed under other sections. Survey the existing electrical systems with
representatives from other trades prior to performing any demolition work. Identify all conduit
and equipment to be removed with tags or paint.
F. All power interruptions to electrical equipment shall be at the Owner's convenience with 72
hours (minimum) notice. Each interruption shall have prior approval.
G. The work shall include complete testing of all equipment and wiring at the completion of work
and making any minor correction changes or adjustments necessary for the proper functioning
of the system and equipment. All workmanship shall be of the highest quality; substandard
work will be rejected.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 2 June 2016
H. A single manufacturer shall provide panelboards, disconnect switches, etc.
I. Contractor shall provide their own temporary power for miscellaneous power (drills, pumps,
etc.). No facility circuits shall be used unless approved in writing by the Engineer. Any
temporary added shall be removed at job completion.
J. Complete coordination with other contractors. Contractor shall coordinate with all other
contractors’ equipment submittals and obtain all relevant submittals.
1.02 SUBMITTALS
A. Submit, in accordance with Division 1, shop drawings for equipment, materials and other items
furnished under Division 15.
B. Refer to Section 15500 for additional requirements.
C. Check shop drawings for accuracy and contract requirements prior to submittal. Shop drawings
shall be stamped with the date checked and a statement indicating that the shop drawings
conform to Specifications and Drawings. This statement shall also list all exceptions to the
Specifications and Drawings. Shop drawings not so checked and noted shall be returned.
D. The Engineer's check shall be for conformance with the design concept of the project and
compliance with the Specifications and Drawings. Errors and omissions on approved shop
drawings shall not relieve the Contractor from the responsibility of providing materials and
workmanship required by the Specifications and Drawings.
E. All dimensions shall be field verified at the job site and coordinated with the work of all other
trades.
F. Material shall not be ordered or shipped until the shop drawings have been approved. No
material shall be ordered or shop work started if shop drawings are marked "APPROVED AS
NOTED - CONFIRM," "APPROVED AS NOTED - RESUBMIT" or "NOT APPROVED."
G. Operation and Maintenance Data
1. Submit operations and maintenance data for equipment furnished under this Division, in
accordance with Division 1. The manuals shall be prepared specifically for this installation and
shall include catalog data sheets, drawings, equipment lists, descriptions, parts lists, etc., to
instruct operating and maintenance personnel unfamiliar with such equipment.
1.03 CONTRACT PERFORMANCE REQUIREMENTS
A. Electric equipment, materials and installation shall comply with the latest edition of the
National Electrical Code (NEC) and with the latest edition of the following codes and standards:
1. National Electrical Safety Code (NESC)
2. Occupational Safety and Health Administration (OSHA)
3. National Fire Protection Association (NFPA)
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 3 June 2016
4. National Electrical Manufacturers Association (NEMA)
5. American National Standards Institute (ANSI)
6. Insulated Cable Engineers Association (ICEA)
7. Instrument Society of America (ISA)
8. Underwriters Laboratories (UL)
9. Factory Mutual (FM)
10. National Electrical Testing Association (NETA)
B. Where reference is made to one of the above standards, the revision in effect at the time of bid
opening shall apply.
1.04 PRIORITY OF THE CONTRACT DOCUMENTS
A. If, during the performance of the work, the Contractor finds a conflict, error or discrepancy
between or among one or more of the sections or between or among one or more sections and
the Drawings, furnish the higher performance requirements. The higher performance
requirement shall be considered the equipment, material, device or installation method which
represents the most stringent option, the highest quality or the largest quantity.
B. In all cases, figured dimensions shall govern over scaled dimensions, but work not dimensioned
shall be as directed by the Engineer and work not particularly shown, identified, sized, or
located shall be the same as similar work that is shown or specified.
C. Detailed Drawings shall govern over general drawings, larger scale Drawings take precedence
over smaller scale Drawings, Change Order Drawings shall govern over Contract Drawings and
Contract Drawings shall govern over Shop Drawings.
D. If the issue of priority is due to a conflict or discrepancy between the provisions of the Contract
Documents and any referenced standard, or code of any technical society, organization or
association, the provisions of the Contract Documents will take precedence if they are more
stringent or presumptively cause a higher level of performance. If there is any conflict or
discrepancy between standard specifications, or codes of any technical society, organization or
association, or between Laws and Regulations, the higher performance requirement shall be
binding on the Contractor, unless otherwise directed by the Engineer.
E. In accordance with the intent of the Contract Documents, the Contractor accepts the fact that
compliance with the priority order specified shall not justify an increase in Contract Price or an
extension in Contract Time nor limit in any way, the Contractor's responsibility to comply with
all Laws and Regulations at all times.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 4 June 2016
1.05 ENCLOSURE TYPES
A. Unless otherwise specified electrical enclosures shall have the following ratings:
1. NEMA 1 for dry, non-process indoor above grade locations.
2. NEMA 12 for “DUST” locations.
3. NEMA 4X for outdoor locations, rooms below grade (including basements and buried
vaults), "DAMP" and "WET" and “PROCESS” locations.
4. NEMA 4X for "CORROSIVE" locations.
5. NEMA 7 (and listed for use in the area classifications shown) for "Class I Division 1
Group D", "Class I Division 2 Group D" and "Class II Division 1" hazardous locations
shown on the Drawings.
1.06 CODES, INSPECTION AND FEES
A. Equipment, materials and installation shall comply with the requirements of the local authority
having jurisdiction.
B. Obtain all necessary permits and pay all fees required for permits and inspections.
1.07 TESTS AND SETTINGS
A. Test systems and equipment furnished under Division 15 and repair or replace all defective
work and equipment. Refer to the individual equipment sections for additional specific testing
requirements.
B. Make adjustments to the systems and instruct the Owner's personnel in the proper operation of
the systems.
C. In addition to the specific testing requirements listed in the individual sections, the following
minimum tests and settings shall be performed.
1. Mechanical inspection, testing and settings of circuit breakers, disconnect switches, control
circuits and equipment for proper operation.
2. Check all wire and cable terminations. Verify to the Engineer connections meet the
equipment’s torque requirements.
D. Testing shall be scheduled and coordinated with the Owner at least two weeks in advance.
Provide qualified test personnel, instruments and test equipment. Provide certified calibration
sheets including dates for all equipment to be used for testing with notice of scheduled testing.
The Contractor shall have qualified personnel present during the testing.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 5 June 2016
1.08 SIZE OF EQUIPMENT
A. Investigate each space in the structure through which equipment must pass to reach its final
location. Coordinate shipping splits with the manufacturer to permit safe handling and passage
through restricted areas in the structure.
B. The equipment shall be kept upright at all times during storage and handling. When equipment
must be tilted for passage through restricted areas, brace the equipment to insure that the tilting
does not impair the functional integrity of the equipment.
1.09 RECORD DRAWINGS
A. As the work progresses, legibly record all field changes on a set of project contract drawings,
hereinafter called the "record drawings."
B. Record drawings shall accurately show the installed condition of the following items:
1. One-line Diagram(s).
2. Raceways and pullboxes.
3. Conductor sizes and conduit fills.
4. Panel Schedule(s).
5. Control Wiring Diagram(s).
6. Plan view, sizes and locations of panelboards.
C. Submit a schedule of control wiring raceways and wire numbers, including the following
information:
1. Circuit origin, destination and wire numbers.
2. Field wiring terminal strip names and numbers.
D. As an alternate, point-to-point connection diagrams showing the same information may be
submitted in place of the schedule of control wiring raceways and wire numbers.
E. Submit the record drawings and the schedule of control wiring raceways and wire numbers (or
the point-to-point connection diagram) to the Owner.
1.10 EQUIPMENT INTERCONNECTIONS
A. Review shop drawings of equipment furnished under other Divisions of this Specification and
prepare coordinated wiring interconnection diagrams or wiring tables. Submit copies of wiring
diagrams or tables with Record Drawings.
B. Furnish and install all equipment interconnections.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 6 June 2016
1.11 MATERIALS AND EQUIPMENT
A. Materials and equipment shall be new, except where specifically identified on the Drawings to
be re-used.
B. Material and equipment of the same type shall be the product of one manufacturer and shall be
UL listed.
C. Warrant all equipment furnished under Division 15 in accordance with Division 1. Refer to
individual equipment sections for additional warranty items.
1.12 EQUIPMENT IDENTIFICATION
A. Identify equipment (disconnect switches, separately mounted motor starters, control stations,
etc.) furnished under Division 15 with the name of the equipment it serves. Panelboards,
junction or terminal boxes, etc., shall have nameplate designations as shown on the Drawings.
B. Nameplates shall be engraved, laminated plastic, not less than 1/16-in thick by 3/4-in by 2-1/2-
in with 3/16-in high white letters on a black background.
C. Nameplates shall be screw mounted to NEMA 1 enclosures. Nameplates shall be bonded to all
other enclosure types using an epoxy or similar permanent waterproof adhesive. Two sided
foam adhesive tape is not acceptable. Where the equipment size does not have space for
mounting a nameplate the nameplate shall be permanently fastened to the adjacent mounting
surface.
1.13 INTERPRETATION OF DRAWINGS
A. Unless specifically stated to the contrary, the Drawings are not intended to show exact locations
of conduit runs. Coordinate the conduit installation with other trades and the actual supplied
equipment.
B. Install each 3 phase circuit in a separate conduit unless otherwise shown on the Drawings.
C. Unless otherwise approved by the Engineer, conduit shown exposed shall be installed exposed;
conduit shown concealed shall be installed concealed.
D. Where circuits are shown as "home-runs" all necessary fittings and boxes shall be provided for a
complete raceway installation. Where home-runs indicate conduit is to be installed concealed or
exposed the entire branch circuit shall be installed in the same manner. Unless otherwise
indicated install branch circuit conduits exposed in process/industrial type spaces and concealed
in finished spaces.
E. Verify the exact locations and mounting heights of lighting fixtures, switches and receptacles
prior to installation.
F. Except where dimensions are shown, the locations of equipment, fixtures, outlets and similar
devices shown on the Drawings are approximate only. Exact locations shall be determined by
the Contractor and approved by the Engineer during construction. Obtain information relevant
to the placing of electrical work and in case of any interference with other work, proceed as
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 7 June 2016
directed by the Engineer and furnish all labor and materials necessary to complete the work in
an approved manner.
G. Circuit layouts are not intended to show the number of fittings, or other installation details.
Furnish all labor and materials necessary to install and place in satisfactory operation all power,
lighting and other electrical systems shown.
H. Redesign of electrical or mechanical work, which is required due to the Contractor's use of an
alternate item, arrangement of equipment and/or layout other than specified herein, shall be
done by the Contractor at his/her own expense. Redesign and detailed plans shall be submitted
to the Engineer for approval. No additional compensation will be provided for changes in the
work, either his/her own or others, caused by such redesign.
I. It is the intent of these Specifications that the Electrical Systems shall be suitable in every way
for the service required. All materials and all work that may be implied as being incidental to
the work of this section shall be furnished at no additional cost to the Owner.
J. Raceways and conductors for lighting, switches, receptacles and other miscellaneous low
voltage power and signal systems as specified are not shown on the Drawings. Raceways and
conductors shall be provided as required for a complete and operating system. Homeruns, as
shown on the Drawings, are to assist the Contractor in identifying raceways to be run exposed
and raceways to be run concealed. Raceways shall be installed concealed in all finished spaces
and may be installed exposed or concealed in all process spaces. Raceways installed exposed
shall be near the ceiling or along walls of the areas through which they pass and shall be routed
to avoid conflicts with HVAC ducts, cranes hoists, monorails, equipment hatches, doors,
windows, etc. Raceways installed concealed shall be run in the center of concrete floor slabs,
above suspended ceilings, or in partitions as required.
1.14 SEISMIC RESTRAINTS
A. Refer to Section 15500.
PART 2 PRODUCTS
2.01 CONDUITS AND FITTING
A. Rigid Steel Conduit
1. Rigid steel conduit interior and exterior shall be hot-dipped galvanized and be as
manufactured by the Allied Tube and Conduit Corp.; Wheatland Tube Co.; Western Tube
& Conduit Corporation, or equal.
2. Rigid steel conduit shall be for use under the provisions of NEC Article 344.
B. PVC Coated Rigid Steel Conduit
1. PVC coated rigid steel conduit shall have a minimum 0.040-in thick, polyvinyl chloride
coating permanently bonded to hot-dipped galvanized steel conduit and an internal
chemically cured urethane or enamel coating. The ends of all couplings, fittings, etc., shall
have a minimum of one pipe diameter in length of PVC overlap. PVC conduit and fittings
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 8 June 2016
shall be manufactured by Occidental Coating Company; "Plasti-Bond Red" as
manufactured by Robroy Industries; “Ocal” by Thomas & Betts Inc., Perma-Cote, or equal.
2. Rigid steel conduit shall be for use under the provisions of NEC Article 344.
C. Rigid Aluminum Conduit
1. Rigid aluminum conduit shall be 6063 alloy and shall be as manufactured by American
Conduit by SAPA, Wheatland Tube, AFC Co., or equal.
2. Rigid steel conduit shall be for use under the provisions of NEC Article 344.
D. Liquidtight Flexible Metal Conduit, Couplings and Fittings
1. Liquidtight flexible metal conduit shall be Sealtite, Type UA, manufactured by the
Anaconda Metal Hose Div.; Anaconda American Brass Co.; American Flexible Conduit
Co., Inc.; Universal Metal Hose Co., or equal.
2. Fittings used with liquidtight flexible metal conduit shall be of the 3-piece screw-in type
malleable iron as manufactured by the O.Z. Gedney Co; Thomas & Betts Co.; Crouse-
Hinds Co., or equal.
3. Liquidtight flexible metal conduit shall be for use under the provisions of NEC Article 350.
E. Flexible Couplings
1. Flexible couplings shall be type ECGJH as manufactured by the Crouse-Hinds Co.;
Appleton Electric Co.; Killark Electric Manufacturing Co., or equal.
F. Boxes and Fittings
1. Pressed steel switch and outlet boxes shall be hot-dipped galvanized with hot-dipped
galvanized tile rings as manufactured by the Raco Manufacturing Co.; Adalet Co.; O.Z.
Manufacturing Co., or equal.
2. NEMA 1 and NEMA 12, junction boxes, pull boxes etc., shall be sheet steel unless
otherwise shown on the Drawings. Boxes shall be galvanized and have continuously
welded seams. Welds shall be ground smooth and galvanized. Box bodies shall be flanged
and shall not have holes or knockouts. Box bodies shall not be less than 14 gauge metal
and covers shall not be less than 12 gauge metal. Covers shall be gasketed and fastened
with stainless steel screws. Terminal boxes shall be furnished with hinged doors, terminal
mounting straps and brackets. Boxes shall be as manufactured by Hoffman Engineering
Co.; Lee Products Co.; ASCO Electrical Products Co., Inc., or equal. All boxes shall be
shop primed and painted by the box manufacturer.
3. NEMA 4X stainless steel, junction boxes and pull boxes shall be type 316 stainless steel
with type 316 stainless steel hardware and gasketed covers. Boxes shall have continuously
welded seams and welds shall be ground smooth. Box bodies shall be flanged and shall not
have holes or knockouts. Box bodies shall not be less than 14 gauge metal and covers shall
not be less than 12 gauge metal. Covers shall be gasketed and fastened with stainless steel
screws. Terminal boxes shall be furnished with hinged doors, terminal mounting straps
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 9 June 2016
and brackets. Boxes shall be as manufactured by Hoffman Engineering Co.; Lee Products
Co.; ASCO Electrical Products Co., Inc., or equal.
4. All boxes and fittings used with PVC coated conduit shall be furnished with a PVC coating
bonded to the metal, the same thickness as used on the coated steel conduit. The ends of
couplings and fittings shall have a minimum of one pipe diameter PVC overlap to cover
threads and provide a seal.
5. Cast or malleable iron device boxes shall be Type FD. All cast or malleable iron boxes and
fittings shall have cadmium-zinc finish with cast covers and stainless steel screws as
manufactured by the Crouse-Hinds Co., or equal.
6. Cast aluminum device boxes shall be Type FD. All cast aluminum boxes and fittings shall
be copper-free aluminum with cast aluminum covers and stainless steel screws as
manufactured by the Killark Electric Co.; Crouse-Hinds Co.; L. E. Mason Co. or equal.
7. Cast malleable iron fittings (C's, T's, LB's, etc.) shall be PVC coated and of the mogul
design (with rollers) as manufactured by Appleton Electric Co.
8. Cast aluminum fittings (C's, T's, LB's, etc.) shall be of the mogul design (with rollers) as
manufactured by Appleton Electric Co.
9. Steel elbows and couplings shall be hot-dipped galvanized. Elbows and couplings used
with PVC coated conduit shall be furnished with a PVC coating bonded to the steel, the
same thickness as used on the coated steel conduit.
10. Conduit hubs shall be of the grounding type as manufactured by Myers Electric Products,
Inc. or equal.
11. Conduit wall seals for cored holes shall be Type CSML as manufactured by the
O.Z./Gedney Co. or equal.
12. Conduit wall and floor seals for sleeved openings shall be type CSMI as manufactured by
the O.Z./Gedney Co.; or equal.
13. Conduit sealing bushings shall be O.Z./Gedney Type CSB or equal.
14. Combination expansion-deflection fittings embedded in concrete shall be Type XD as
manufactured by Crouse-Hinds Co.; Type AXDX as manufactured by O.Z./Gedney Co.
Type DF as manufactured by Appleton Electric Co., or equal.
15. Combination expansion-deflection fittings installed exposed shall be Type XD as
manufactured by Crouse-Hinds Co.; Type AXDX as manufactured by O.Z./Gedney Co.
Type DF as manufactured by Appleton Electric Co., or equal.
16. Steel elbows and couplings shall be hot-dipped galvanized. Elbows and couplings used
with PVC coated conduit shall be furnished with a PVC coating bonded to the steel, the
same thickness as used on the coated steel conduit.
G. Conduit Mounting Equipment
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 10 June 2016
1. In dry indoor non-process areas, hangers, rods, backplates, beam clamps, channel,
fasteners, anchors, nuts, washers, etc., shall be hot-dipped galvanized steel.
2. Type 316 Stainless steel channel with type 316 stainless steel hardware (hangers, rods,
backplates, beam clamps, fasteners, anchors, nuts, washers, etc.) shall be used in process
areas, as shown on the drawings, in areas designated "WET", "DAMP" and
"CORROSIVE" on the Drawings and in outdoor locations. All channel and hardware shall
be resistant to the chemicals present in the area in which it is used.
3. Expansion anchors (minimum 3/8" diameter) shall be equal to Kwik-Bolt as manufactured
by the McCullock Industries, Minneapolis, MI; Wej-it by Wej-it Expansion Products, Inc.,
Bloomfield, CO; or Kwik-Bolt II as manufactured by the Hilti Fastening Systems, Inc,
Tulsa, OK. The length of expansion bolts shall be sufficient to place the wedge portion of
the bolt a minimum of 1-in behind the steel reinforcement. Apply anti-seize compound to
all nuts and bolts. Supports installed without the approved compound shall be dismantled
and correctly installed, at no cost to the Owner.
H. Wall and Floor Slab Opening Seals
1. Wall and floor slab openings shall be sealed with "FLAME-SAFE" as manufactured by the
Thomas & Betts Corp.; Pro Set Systems; Neer Mfg. Co.; Specified Technologies, Inc. or
equal.
I. Cold Galvanizing Compound
1. Cold galvanizing compound shall be as manufactured by ZRC Products Company, a
division of Norfolk Corp., or equal.
2.02 WIRE, CABLE AND ACCESSORIES
A. Wires and cables shall be of annealed, 98 percent conductivity, soft drawn copper.
B. All conductors shall be stranded, except that lighting and receptacle wiring may be solid.
C. Except for control, signal and instrumentation circuits, wire smaller than No. 12 AWG shall not
be used.
D. Wire shall be 600 volt insulation except were indicated otherwise.
E. All wire of a given type shall be the product of a single manufacturer.
F. Wire for lighting, receptacles and other circuits not exceeding 150 Volts to ground shall be NEC
Type XHHW-2 as manufactured by Okonite Co.; Southwire Co.; Pirelli Corp., or equal. Below
grade and underground the wire shall be NEC Type XHHW-2.
G. Wire for circuits over 150 Volts to ground shall be NEC typeXHHW-2 for sizes up to No. 4/0
AWG and Type RHW-2 for sizes greater than No. 4/0 AWG as manufactured by Okonite Co.;
Southwire Co., or equal.
H. Equipment grounding conductors shall be the same NEC type as the phase conductors described
previously, green and sized per NEC Table 250.122.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 11 June 2016
I. Wire for control, status and alarm circuits shall be No.14 AWG NEC type XHHW-2, stranded
as manufactured by the Okonite Co.; Carol Cable Co. Inc. West; Pirelli Cable Corp., or equal.
J. Multi-conductor control and power cables shall have stranded conductors with type XLP
insulated, nylon conductor covering, and an overall PVC jacket covering the individual wires.
Cable shall be TC rated meeting UL 1277 and IEEE 383 Standards. Cable shall be flame
resistant, non-propagating and suitable for installation in a Class I, Division II hazardous
location and for direct burial in earth. Power and control cables shall be furnished with a green
ground conductor. Power cables shall be furnished with a white neutral conductor where
required to serve phase to neutral loads. Cable shall be as manufactured by the Okonite Co.;
Southwire Co.; General Cable Co., or equal.
K. Wire for process instrumentation signals (i.e., 1-5 VDC, 4-20 mA), R.T.D., potentiometer and
similar signals shall be:
1. Single pair cable:
a. Conductors: 2- No.16 stranded and twisted on 2-in lay
b. Insulation: XLP with 600 Volt, 105 degrees C rating
c. Shield: 100 percent mylar tape with drain wire
d. Jacket: PVC with UL Subject 13, UL 1581, and manufacturer's
identification
e. Max overall diameter: 0.262-in
f. Miscellaneous UL listed for underground wet location use
g. Manufacturers: Rockbestos-Surprenant Cable Corp., or equal
2. Three conductor (triad) cable:
a. Conductors: 3- No.16 stranded and twisted on 2-in lay
b. Insulation: XLP with 600 Volt, 105 degrees C rating
c. Shield: 100 percent mylar tape with drain wire
d. Jacket: PVC with UL Subject 13, UL 1581 and manufacturer's
identification
e. Max overall diameter: 0.276-in
f. Miscellaneous: UL listed for underground wet location use
g. Manufacturers: Rockbestos-Surprenant Cable Corp., or equal
3. Multiple pair cables (where shown on the Drawings):
a. Conductor: Multiple 2- No.16 stranded and twisted on a 2-in lay
b. Insulation: XLP with 600 Volt, 105 degrees C rating
c. Shield: Individual pairs shielded with 100 percent mylar tape and
drain wire
d. Jacket: PVC with UL Subject 13, UL 1581 manufacturer's
identification
e. Miscellaneous: UL listed for underground wet location use
f. Manufacturers: Rockbestos-Surprenant Cable Corp., or equal
L. For power conductors, unless otherwise indicated on the Drawings, splices shall not be made in
the cables without prior written approval of the Engineer. Where splicing is approved by the
Engineer, splicing materials for all 600V splices shall be made with long barrel, tin plated
copper compression (hydraulically pressed) connectors and insulated with heavy wall heat
shrinkable tubing. The conductivity of all completed connections shall be not less than that of
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 12 June 2016
the uncut conductor. The insulation resistance of all completed connections of insulated
conductors shall be not less than that of the uncut conductor.
M. For power conductors, wire lugs shall be tin plated copper, long barrel compression type
(hydraulically pressed) for wire sizes No. 8 AWG and larger. Use one-hole lug for sizes No. 8
AWG to No. 4/0 AWG. Use two hole lug for sizes 250 kcmil and larger. Lugs for No. 10 AWG
and smaller wire shall be locking spade type with insulated sleeve. Lugs shall be as
manufactured by the Thomas and Betts Co.; Burndy; Amp; or equal.
N. For power conductors, compression type connectors shall be insulated with a heat shrink boot or
outer covering and epoxy filling. Splice kits shall be as manufactured by Raychem (Tyco); Ideal
Industries; 3M Co. or equal.
O. For power conductors, connectors (wirenuts) for pigtail splicing all wires and cables No. 10
AWG and smaller shall be solderless pressure type.
P. For power conductors, connectors used at all exterior, wet or corrosive locations shall be pre-
filled with silicone based sealant. Connectors shall be as manufactured by Ideal Industries, or
equal.
Q. Motor connections shall be ring type mechanical compression terminations installed on the
branch circuit wires and the motor leads and secured with bolt, nut and springwasher.
Connections shall be insulated with a Raychem Type RVC, roll-on stub insulator; Thomas &
Betts, Shrink-Kon MSCV20; or equal. For wire sizes No. 8 AWG and larger, long barrel, tin
plated copper compression (hydraulically pressed) type connections Burndy Co., or equal) shall
be installed on the branch circuit wires and the motor leads. Connections shall be insulated with
heavy duty heat shrinkable material (Raychem Corp., or equal).
R. For control, status and alarm conductors, unless otherwise indicated on the Drawings, splices
shall not be made in the cables without prior written approval of the ENGINEER. Where
splicing is approved by the ENGINEER, splicing materials shall be approved by the
ENGINEER and cable manufacturer. Splicing materials and installation shall be as required by
the ENGINEER. The conductivity of all completed connections shall be not less than that of the
uncut conductor. The insulation resistance of all completed connections of insulated conductors
shall be not less than that of the uncut conductor.
S. For control, status and alarm conductors, termination connectors shall be of the locking fork-
end (upturned leg ends) type as manufactured by Ideal Industries; 3M Co.; Panduit Corp. or
equal.
T. For control, status and alarm conductors, insulated compression type connectors shall be of the
expanded vinyl insulated parallel or pigtail type as manufactured by Ideal Industries; 3M Co.;
Panduit Corp. or equal.
U. For instrumentation cable, termination connectors shall be of the locking fork-end (upturned leg
ends) type as manufactured by Ideal Industries; 3M Co.; Panduit Corp., or equal.
V. Wire and cable markers shall be type written, heat shrinkable type as manufactured by the W.H.
Brady Co., Thomas & Betts Co., 3M Co., or equal.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 13 June 2016
W. Wire and cables with diameters exceeding the capacity of the heat shrinkable markers shall be
marked with pre-printed, self-adhesive vinyl tapes as manufactured by the W.H. Brady Co.,
Panduit Corp., or equal.
X. Wall and floor slab openings shall be sealed with UL approved expanding material which
equals or exceeds the fire rating of the wall or floor construction such as "FLAME-SAFE" as
manufactured by the Thomas & Betts Corp. or equal.
2.03 MISCELLANEOUS EQUIPMENT
A. Disconnect Switches
1. Disconnect switches shall be heavy-duty, quick-make, quick-break, visible blades, 600
Volt, 3 Pole with full cover interlock, interlock defeat and flange mounted operating
handle.
2. NEMA 4X enclosures shall be stainless steel.
3. Switches shall be as manufactured by the Square D Co.; Cutler Hammer Co.; General
Electric Company; Siemens Company, or equal.
B. Fused Disconnect Switches
1. Fused disconnect switches shall be heavy-duty, quick-make, quick-break, visible blades,
600 Volt, 3 Pole with full cover interlock, interlock defeat and flange mounted operating
handle.
2. Fuses shall be rejection type, 600 Volt, 200,000 A.I.C., dual element, time delay, Bussman
Fusetron, Class RK-5; Gould Shawmut Inc.; Littelfuse Power Fuse Division, or equal.
3. NEMA 4X enclosures shall be stainless steel.
4. Switches shall be as manufactured by the Square D Co.; Cutler Hammer Co.; General
Electric Company; Siemens Company, or equal.
2.04 PANELBOARDS
A. Panelboards shall be in accordance with the Underwriter Laboratories, Inc. "Standard for
Panelboards" and "Standard for Cabinets and Boxes" and shall be so labeled where procedures
exist. Panelboards shall also comply with NEMA Standard for Panelboards and the National
Electrical Code.
B. Where reference is made to one of the above standards, the revision in effect at the time of bid
opening shall apply.
C. 120/240 Volt, single phase, 3 Wire and 120/208 Volt, 3 Phase, 4 Wire panelboards shall be
Type AQ as manufactured by the General Electric Company; Type NQOD as manufactured by
Square D Co.; Type Pow-R-Line C as manufactured by Cutler-Hammer, or equal.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 14 June 2016
D. 277/480 Volt, 3 Phase, 4 Wire panelboards shall be type AE as manufactured by the General
Electric Company; Type NEHB as manufactured by Square D Co.; Type Pow-R-Line C as
manufactured by Cutler-Hammer, or equal.
E. 480 Volt, 3 Phase, 3 Wire panelboards shall be type CCB as manufactured by the General
Electric Company; I-Line series as manufactured by Square D Co.; Type Pow-R-Line C as
manufactured by Cutler-Hammer, or equal.
F. NEMA 3R and 4X panelboards shall be as specified herein, provided in 316 stainless steel
enclosures as manufactured by the Hoffman or equal and completely assembled by the
panelboard manufacturer.
G. Rating
1. Panelboard ratings shall be as shown on the Drawings. All panelboards shall be rated for
the intended voltage.
2. Circuit breaker panelboards shall be fully rated for the specified circuit breaker fault
current interrupting capacity. Series connected short circuit ratings will not be acceptable.
H. Interiors
1. All interiors shall be completely factory assembled with circuit breakers, wire connectors,
etc. All wire connectors, except screw terminals, shall be of the anti-turn solderless type
and all shall be suitable for copper wire of the sizes indicated
2. Interiors shall be so designed that circuit breakers can be replaced without disturbing
adjacent units and without removing the main bus connectors and shall be so designed that
circuits may be changed without machining, drilling or tapping.
3. Branch circuits shall be arranged using double row construction except when narrow
column panels are indicated. Branch circuits shall be numbered by the manufacturer.
4. A nameplate shall be provided listing manufacturer's name, panel type and rating.
I. Buses
1. Bus bars for the mains shall be of tin plated copper. Full size tin plated copper neutral bars
shall be included. Bus bar taps for panels with single pole branches shall be arranged for
sequence phasing of the branch circuit devices. Bussing shall be braced throughout to
conform to industry standard practice governing short circuit stresses in panelboards. Phase
bussing shall be full height without reduction. Cross connectors shall be tin plated copper.
Each panel shall be provided with a ground bus bar, with removable link/jumper between
neutral and ground bus. The ground bus shall be sized to the maximum number of circuit
breakers that can be installed in the panelboard.
2. Neutral bussing shall have a suitable lug for each outgoing feeder requiring a neutral
connection.
3. Spaces for future circuit breakers shall be bussed for the maximum device that can be fitted
into them.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 15 June 2016
4. Tin-plated copper equipment ground bars shall be furnished.
J. Boxes
1. Recessed or flush mounted boxes shall be made from galvanized code gauge steel having
multiple knockouts, unless otherwise noted. Boxes shall be of sufficient size to provide a
minimum gutter space of 4-in on all sides.
2. Surface mounted boxes and trims shall have an internal and external finish as specified in
Paragraph 2.04K4 below.
3. At least four studs for mounting the panelboard interior shall be furnished.
4. All conduit entrances shall be field punched.
K. Trim
1. Hinged doors covering all circuit breaker handles shall be included in all panel trims.
2. Doors shall have semi flush type cylinder lock and catch, except that doors over 48-in in
height shall have a vault handle and 3-point catch, complete with lock, arranged to fasten
door at top, bottom and center. Door hinges shall be concealed. Furnish two keys for each
lock. All locks shall be keyed alike; directory frame and card having a transparent cover
shall be furnished on each door. All trims shall be door-in-door type construction.
3. The trims shall be fabricated from code gauge sheet steel.
4. All exterior and interior steel surfaces of the panelboard shall be properly cleaned and
finished with ANSI Z55.1, No. 49 or 61 light gray paint over a rust-inhibiting phosphatized
coating. The finish paint shall be of a type to which field applied paint will adhere.
5. Trims for flush panels shall overlap the box by at least 3/4-in all around. Surface mounted
panel trims shall have the same width and height as the box. Trims shall be fastened with
quarter turn clamps.
L. Circuit Breakers
1. Panelboards shall be equipped with circuit breakers with frame size and trip settings as
shown on the Drawings.
2. Circuit breakers shall be molded case, bolt-in type.
3. New circuit breakers for existing panelboards shall be of the same manufacturer as the
panelboard, shall have interrupting ratings matching the existing panelboard, and shall be a
model suitable for use with the panelboard.
4. Each circuit breaker used in 120/208 Volt panelboards shall have an interrupting capacity
of not less than 10,000 Amps, RMS symmetrical.
5. Each circuit breaker used in 120/240 Volt and 120/208 Volt panelboards shall have an
interrupting capacity of not less than 10,000 amperes, RMS symmetrical.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 16 June 2016
6. Each circuit breaker used in 277/480 Volt and 480 Volt panelboards shall have an
interrupting capacity of not less than 65,000 amperes RMS symmetrical.
7. GFCI (ground fault circuit interrupter) shall be provided for circuits where shown on the
Drawings. GFCI units shall be 1 Pole, 120 Volt molded case, bolt-on breakers,
incorporating a solid state ground fault interrupter circuit insulated and isolated from the
breaker mechanism. The unit shall be UL listed Class A Group I device (5 milliamp
sensitivity, 25 millisecond trip time) and an interrupting capacity of 10,000 Amps RMS.
8. Circuit breakers shall be as manufactured by the panelboard manufacturer.
2.05 WIRING DEVICES
A. Wall switches shall be heavy duty, specification grade, toggle action, flush mounting quiet type.
All switches shall conform to the latest revision of Federal Specification WS 896. Wall switches
shall be of the following types and manufacturer:
1. Single pole, 20 Amp, 120/277 Volt - Arrow-Hart, Catalog No. 1991, or equal by Harvey
Hubbell, Inc.; Pass & Seymour, Inc., or equal.
2. Double pole, 20 Amp, 120/277 Volt - Arrow-Hart, Catalog No. 1992, or equal by Harvey
Hubbell, Inc.; Pass & Seymour, Inc., or equal.
3. Three way, 20 Amp, 120/277 Volt - Arrow-Hart, Catalog No. 1993, or equal by Harvey
Hubbell, Inc.; Pass & Seymour, Inc., or equal.
B. Receptacles shall be heavy duty, specification grade of the following types and manufacturer or
equal. Receptacles shall conform to Federal Specification WC596-F.
1. Duplex, 20 Amp, 125 Volt, 2P, 3W; Arrow-Hart, Catalog No. 5362, or equal by Harvey
Hubbell, Inc.; Pass & Seymour, Inc.
2. Weatherproof/corrosion resistant single, 20 Amp, 125 Volt, 2P, 3W, with cover; Crouse-
Hinds Co., Catalog No. WLRS-5-20, or equal by Appleton Electric.
3. Weatherproof/corrosion resistant duplex, 20 Amp, 125 Volt, 2P, 3W, with cover; Crouse-
Hinds Co., Catalog No. WLRD-5-20, or equal by Appleton Electric.
4. Ground fault interrupter, duplex, 20 Amp, 125 Volt, 2P, 3W, GFCI feed thru type with
"test" and "reset" buttons. Arrow-Hart, Catalog No. GF5342 or equal by Harvey Hubbell,
Inc.; Pass & Seymour, Inc., or equal.
C. Device Plates:
1. Plates for indoor flush mounted devices shall be of the required number of gangs for the
application involved and shall be as follows:
a. Administration type buildings: Smooth, high impact nylon of the same manufacturer
and color as the device. Final color to be as selected by the Architect.
b. Where permitted in other areas of the plant, flush mounted devices in cement block
construction shall be Type 302 high nickel (18-8) stainless steel of the same
manufacturer as the devices.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 17 June 2016
2. Plates for indoor surface mounted device boxes shall be cast metal of the same material as
the box, Crouse-Hinds, No. DS23G and DS32G, or equal.
3. Oversized plates shall be installed where standard plates do not fully cover the wall
opening.
4. Device plates for switches mounted outdoors or indicated as weatherproof shall be
gasketed, cast aluminum with provisions for padlocking switches "On" and "Off," Crouse
Hinds, No. DS185, or equal.
5. Multiple surface mounted devices shall be ganged in a single, common box and provided
with an adapter, if necessary, to allow mounting of single gang device plates on multi-gang
cast boxes.
6. Engraved device plates shall be provided where required.
7. Weatherproof, gasketed cover for GFI receptacle mounted in a FS/FD box shall be Arrow-
Hart, Catalog No. 4501-FS or equal by Harvey Hubbell, Inc.; Pass & Seymour, Inc., or
equal.
2.06 SURGE PROTECTIVE DEVICE
A. SPD unit shall be a hybrid device utilizing a linear array of balanced MOV (Metal Oxide
Varistors) and a series assembly of silicon avalanche diodes.
B. The SPD unit shall be tested and labeled in accordance with the following standards:
ANSI/IEEE C62.41, Recommended Practice for Surge Voltages in Low-Voltage AC Power
Circuits, Category C; ANSI/IEEE C62.45, Guide on Surge Testing for Equipment Connected to
Low-Voltage AC Power Circuits; NEMA LS-1 (1992), Low-Voltage Surge Protective Devices;
UL 1449-Third Edition - UL Standard for Safety for Surge Protective Devices; UL 1283 for
noise attenuation devices and NEC Article 285.
C. Unit shall have:
1. Parallel Line-Neutral, Line-Ground and Neutral-Ground connection configuration.
2. One Nanosecond or less response time.
3. Extend noise filtration with a 10 kHz to 100 MHz range.
4. Fused internal disconnect switch with 60 Amps, 300,000 AIC rating.
5. Surge current rating of 100,000 Amps per mode at service entrance
Surge current rating of 100,000 Amps per mode at distribution panels
Surge current rating of 100,000 Amps per mode at branch panels.
6. LED indications.
7. Six digit surge counter.
8. Form C output contacts.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 18 June 2016
9. System voltage shall be as indicated on the Drawings.
10. NEMA 12 enclosure (steel type).
11. The Maximum Continuous Operating Voltage (MCOV) for all voltage configurations shall
be 125 percent of nominal or greater.
12. The fusing system shall be capable of allowing the rated maximum surge current to pass
through without fuse operation.
13. SPD devices at distribution panels or switchboards shall be mounted externally to the
equipment with leads as short as possible.
14. SPD devices at branch panels shall be direct bus-to-bus connected with leads as short as
possible (not to exceed 24-in).
D. Panelboard Suppressors:
1. Acceptable Manufacturers and Models:
a. LEA International Inc., - SP200.
b. Current Technology - CGP100.
c. Liebert - ACV-III-RKE.
2.07 GROUNDING
A. Ground rods shall be 3/4-in by 10-ft copper clad steel and constructed in accordance with UL
467. The minimum copper thickness shall be 0.25 mm. Ground rods shall be Copperweld, or
equal.
B. Grounding conduit hubs shall be malleable iron type similar to Thomas & Betts Co.; Cat No.
3940 (3/4-in conduit size) by Burndy; O.Z./Gedney Co., or equal, and of the correct size for the
conduit.
C. Waterpipe ground clamps shall be cast bronze saddle type, similar to Thomas & Betts Co. Cat.
No. 2 (1/2-in, 3/4-in, or 1-in size) or equal by Burndy; O.Z./Gedney Co. or equal, and of the
correct size for the pipe.
D. Buried grounding connections shall be by Cadweld process, or equal exothermic welding
system.
2.08 MOTORS
A. Qualifications
1. Routine tests shall be performed on representative motors, and shall include the
information described on NEMA MG1-12.54 "Report of Test Form for Routine Tests on
Induction Motors". Efficiency shall be determined in accordance with IEEE Publication
No. 112, Method B. Power factor shall be measured on representative motors.
B. Submittals
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 19 June 2016
1. Submittal of motor data for acceptance shall include complete nameplate data and test
characteristics in accordance with NEMA Standard MG1-12.54 "Report of Test Form for
Routine Tests on Induction Motors" and, in addition, the following for motors typical of
the units furnished:
a. Efficiency at ½, ¾ and full load
b. Power factor at ½, ¾ and full load
c. Motor outline, dimensions and weight
d. Descriptive bulletins, including full description of insulation system
e. Bearing design data
f. Special features (i.e., space heaters, temperature detectors, etc.)
g. Power factor correction capacitor rating and type.
2. The motor manufacturer shall submit to the Engineer as provided in Division 1, certified
dimension prints showing nameplate data and outline dimensions within three weeks of the
date they receive the order.
3. Guarantee: All equipment furnished and installed under this Section shall be guaranteed
against defects of workmanship, materials and proper installation for a period of one (1)
year from date of acceptance. All such equipment or parts proven defective, due to the
above noted causes, shall be replaced in the machines by the Contractor at no expense to
the Owner.
4. Provide equipment warranty in accordance with Division 1.
C. Reference Standards
1. Institute of Electrical and Electronics Engineers (IEEE)
2. National Electrical Manufacturers Association (NEMA)
3. Where reference is made to one of the above standards, the revision in effect at the time of
bid opening shall apply.
D. General
1. Unless otherwise noted, all motors ½ through 100 horsepower shall be rated 230/460 volt,
3 phase, 60 Hertz A.C.; motors 125 horsepower and above shall be rated 460 volt, 3-phase,
60 Hertz, and motors below ½ horsepower shall be rated 115/230 volt, 1 phase, 60 Hertz
A.C.
2. All motors shall be built in accordance with current NEMA, IEEE, ANSI and AFBMA
standards. Motors shall be of the type and quality described by this Section and other
Divisions of the Specifications, and/or as shown on the Drawings, fully capable of
performing in accordance with Manufacturer's nameplate rating, and free from defective
material and workmanship
E. Ratings
1. All motors shall be sufficient size for the duty to be performed and shall not exceed their
full-rated load when the driven equipment is operating at specified capacity and over the
operational range. Unless otherwise noted, motors driving pumps, blowers, etc. shall not be
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 20 June 2016
overloaded at any head or discharge condition. The motor shall not be required to deliver
more than its rated nameplate horsepower, at the 1.0 service factor, under any condition of
mechanical or hydraulic loading (i.e. although a 1.15 service factor is required, it may not
be used under any condition).
2. Each motor shall develop ample torque for its required service throughout its acceleration
range at a voltage 10 percent below nameplate rating. Where shown on the Electrical
Drawings to be operated on a reduced voltage starter, the motor shall develop ample torque
under the conditions imposed by the reduced voltage starting method.
3. All motors shall be continuous time rated suitable for operation in a 40 degrees C ambient
unless noted otherwise.
4. Specific motor data such as Hp, rpm, etc., is specified under the detailed specification for
the equipment with which the motor is supplied.
F. Nameplates
1. The motor manufacturer's nameplates shall be engraved or embossed on stainless steel and
fastened to the motor frame with stainless steel screws or drive pins. Nameplates shall
indicate clearly all of the items of information enumerated in NEMA Standard MG1-10.38
or MG1-20.60, as applicable.
G. Low Voltage, Single Phase Motors
1. Single phase motors shall be split-phase and capacitor-start induction types rated for
continuous horsepower at the rpm indicated on the drawings or as required by the
specifications. Motors shall be rated 115/230 volts, 60 Hertz, single phase, open drip-proof,
or totally enclosed fan cooled as indicated on the drawings or as required by the
specifications, with temperature rise in accordance with NEMA Standards for Class B
insulation.
2. Totally enclosed fan cooled motors shall be designed for severe-duty.
3. Motors shall have corrosion and fungus protective finish on internal and external surfaces.
All fittings shall have a corrosion protective plating.
4. Mechanical characteristics shall be the same as specified for polyphase fractional horsepower
motors.
PART 3 EXECUTION
3.01 CUTTING AND PATCHING
A. Cutting and patching shall be done in a thoroughly workmanlike manner and be in compliance
with modifications and repair to concrete as specified in Division 1. Sawcut concrete and
masonry prior to breaking out sections.
B. Core drill holes in concrete floors and walls as required.
C. Install work at such time as to require the minimum amount of cutting and patching.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 21 June 2016
D. Do not cut joists, beams, girders, columns or any other structural members.
E. Cut opening only large enough to allow easy installation of the conduit.
F. Patching to be of the same kind and quality of material as was removed.
G. The completed patching work shall restore the surface to its original appearance or better.
H. Patching of waterproofed surfaces shall render the area of the patching completely waterproofed.
I. Remove rubble and excess patching materials from the premises.
J. When existing conduits are cut at the floor line of wall line, they shall be filled with grout of
suitable patching material.
3.02 INSTALLATION
A. Any work not installed according to the Specifications shall be subject to change as directed by
the Engineer. No extra compensation will be allowed for making these changes.
B. Electrical equipment shall be protected at all times against mechanical injury or damage by
water. Electrical equipment shall not be stored outdoors. Electrical equipment shall be stored in
dry permanent shelters. Do not install electrical equipment in its permanent location until
structures are weather-tight. If any apparatus has been subject to possible injury by water, it
shall be thoroughly dried out and tested as directed by the Engineer, or shall be replaced at no
additional cost at the Engineer's discretion.
C. Equipment that has been damaged shall be replaced or repaired by the equipment manufacturer,
at the Engineer's discretion.
D. Repaint any damage to factory applied paint finish using touch-up paint furnished by the
equipment manufacturer. The entire damaged panel or section shall be repainted per
manufacturer’s instructions, at no additional cost to the Owner.
E. Coordinate the conduit installation with other trades and the actual supplied equipment.
F. Install each 3 phase circuit in separate conduit.
G. Unless otherwise approved by the Engineer, conduit installed interior to the building shall be
installed exposed; conduit installed exterior to the building shall be concealed.
H. Verify the exact locations and mounting heights of lighting fixtures, switches and receptacles
prior to installation.
I. Exact locations of electrical equipment shall be determined by the Contractor and approved by
the Engineer during construction. Obtain information relevant to the placing of electrical work
and in case of any interference with other work, proceed as directed by the Engineer and furnish
all labor and materials necessary to complete the work in an approved manner.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 22 June 2016
3.03 BOXES AND FITTINGS
A. Except where otherwise specified, all wiring shall be in PVC coated rigid galvanized steel conduit.
B. PVC coated rigid galvanized steel conduit shall be used at all locations (underground and within
structures) as raceways for shielded process instrumentation wiring, shielded control wiring,
data highway wiring and I/O wiring.
C. PVC coated rigid steel conduit shall be used in areas designated "CORROSIVE."
D. All conduit of a given type shall be the product of one manufacturer.
E. Unless otherwise specified herein or shown on the Drawings, all boxes shall be metal.
F. Exposed switch, receptacle and lighting outlet boxes and condulet fittings shall be PVC coated
rigid galvanized steel with the coating thickness the same as used on the coated galvanized steel
conduit.
G. Concealed switch, receptacle and lighting outlet boxes shall be pressed steel. Welded seamed
boxes will not be permitted.
H. Terminal boxes, junction boxes and pull boxes shall have NEMA ratings suitable for the
location in which they are installed.
I. Where PVC coated rigid galvanized steel conduit is provided, the boxes, couplings, fittings, etc.
shall be PVC coated with the coating thickness the same as used on the coated galvanized steel
conduit.
J. Conduit wall seals shall be used where underground conduits penetrate walls.
K. Conduit sealing bushings shall be used to seal conduit ends exposed to the weather.
L. No conduit smaller than 3/4-in electrical trade size shall be used, nor shall any have more than
the equivalent of three 90 degree bends in any one run. Pull boxes shall be provided as required
or directed.
M. No wire shall be pulled until the conduit system is complete in all details; in the case of
concealed work, until all rough plastering or masonry has been completed; in the case of
exposed work, until the conduit system has been completed in every detail.
N. The ends of all conduits shall be tightly plugged to exclude dust and moisture during construction.
O. Conduit supports, other than for underground raceways, shall be spaced at intervals of 8-ft or less.
P. Single conduits shall be supported by means of PVC coated malleable iron one-hole pipe
clamps in combination with PVC coated malleable iron one-screw back plates, to raise conduits
from the surface. Multiple runs of conduits shall be supported on trapeze type hangers with steel
horizontal members and threaded hanger rods. The rods shall be not less than 3/8-in diameter.
Surface mounted panel boxes, junction boxes, conduit, etc, shall be supported by spacers to
provide a minimum of 1/2-in clearance between wall and equipment.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 23 June 2016
Q. Conduit hangers shall be attached to structural steel by means of beam or channel clamps.
Where attached to concrete surfaces, concrete inserts of the spot type shall be provided.
R. All conduits shall be run at right angles to and parallel with the surrounding wall and shall
conform to the form of the ceiling. No diagonal runs will be allowed. Bends in parallel conduit
runs shall be concentric. All conduits shall be run perfectly straight and true.
S. Conduit terminating in pressed steel boxes shall have double locknuts (malleable iron) and
insulated grounding bushings.
T. Conduit terminating in gasketed enclosures shall be terminated with Myers grounding type
conduit hubs.
U. Conduits containing equipment grounding conductors and terminating in sheet steel boxes shall
have insulated throat grounding bushings with lay-in type lugs.
V. Conduits shall be installed using threaded fittings.
W. Liquidtight flexible metal conduit shall be used for all motor terminations, the primary and
secondary of transformers, and other equipment where vibration is present.
X. Flexible couplings shall be used in hazardous locations for all motor terminations and other
equipment where vibration is present.
Y. Aluminum fittings and boxes shall be used with aluminum conduit. Aluminum conduit shall not
be imbedded in concrete. Aluminum conduit shall be isolated from other metals with plastic
sleeves or plastic-coated hangers. Strap wrenches shall be used for tightening aluminum conduit.
Z. Where conduits pass through openings in walls or floor slabs, the remaining openings shall be
sealed against the passage of flame and smoke.
AA. Conduit ends exposed to the weather shall be sealed with conduit sealing bushings.
BB. All conduit which may under any circumstance contain liquids such as water, condensation,
liquid chemicals, etc., shall be arranged to drain away from the equipment served. If conduit
drainage is not possible, conduit seals shall be used to plug the conduits.
CC. Where no type or size is indicated for junction boxes, pull boxes or terminal cabinets, they shall
be sized in accordance with the requirements of N.E.C. Article 314.
DD. Miscellaneous steel for the support of fixtures, boxes, transformers, starters, contactors,
panelboards and conduit shall be furnished and installed.
EE. Steel channels, flat iron and channel iron shall be furnished and installed for the support of all
electrical equipment and devices, where required, including all anchors, inserts, bolts, nuts,
washers, etc. for a rigid installation.
FF. Conduits passing from heated to unheated spaces, exterior spaces, refrigerated spaces, cold air
plenums, etc., shall be sealed with "Duxseal" as manufactured by Manville or seal fitting to
prevent the accumulation of condensation.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 24 June 2016
GG. All field cut threads on PVC coated galvanized steel conduit shall be cleaned and painted with
cold galvanizing compound before installation.
HH. All tools, (benders, threading machines, etc.) used with PVC coated conduit shall be designed
and approved by the conduit manufacturer for use with PVC coated conduit. Tools shall not
damage the PVC coating of the conduit. No patching of damaged PVC coated conduit will be
permitted. Any damaged conduit shall be removed and replaced without exception. Strap
wrenches shall be used for tightening PVC coated conduits. Pipe wrenches, channel locks, chain
wrenches, pliers, etc. shall not be used.
II. The use of running threads is prohibited. Where such threads are necessary, a 3-piece PVC
coated union shall be used.
JJ. All field cut ends of hot dipped galvanized mounting channel shall be cleaned and painted with
cold galvanizing compound before installation.
KK. Conduit expansion and deflection fittings shall be installed on all conduits crossing building
expansion joint. Where conduits are installed outdoors provide expansion and deflection fittings
on all conduits crossing expansion joints or at 200 foot intervals whichever is the least dimension.
3.04 WIRE, CABLE AND ACCESSORIES
A. Uniquely identify all wires, cables and each conductor of multi- conductor cables (except
lighting and receptacle wiring) at each end with wire and cable markers.
B. Identify circuit number associated with lights, receptacles, and other miscellaneous loads at
panelboards. Identify phase and neutral conductors.
C. Use lubrications to facilitate wire pulling. Pulling compound shall be nontoxic, nonflammable,
noncombustible and noncorrosive. The material shall be UL listed and compatible with the
cable insulation and jacket.
D. All wire and cable shall be continuous and without splices between points of connection to
equipment terminals, except a splice will be permitted by the Engineer if the length required
between the points of connection exceeds the greatest standard shipping length available from
the manufacturer specified or approved by the Engineer as the manufacturer of the particular
item or wire and cable.
E. The crimping tools used in securing the conductor in the compression type connectors or
terminal lugs shall be those made for that purpose and for the conductor sizes involved. The
crimping tool shall be the ratchet type which prevents the tool from opening until the crimp
action is completed. Such tools shall be a product of the connector manufacturer.
F. Equipment grounding conductors shall be installed in all power and control raceways.
G. Seal openings in slabs and walls through which wires and cables pass.
H. If cable cannot be terminated immediately after installation, install heat shrinkable end caps.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 25 June 2016
I. To protect wires prior to installation of devices, coil slack wires at outlets, inside the outlet
boxes and seal the outlet opening with cardboard or fiber plug to prevent entrance of concrete,
plaster or paint.
J. When solid conductors are to be connected directly to wiring devices without the use of lugs,
the wires shall be formed into a loop to fit around the terminal screw. Under no circumstance
shall the wire be wrapped completely around the screw with one conductor over-lapping the
other.
K. All wire shall be color coded or coded using electrical tape in sizes where colored insulation is
not available. Where tape is used as the identification system, it shall be applied in all junction
boxes, and other accessible intermediate locations as well as at each termination.
L. The following coding shall be used:
System Wire Color
240/120 Volts Neutral White
1-Phase, 3-Wire Line 1 Black
Line 2 Red
208Y/120, Volts Neutral White
3-Phase, 4-Wire Phase A Black
Phase B Red
Phase C Blue
240/120 Volts Neutral White
3-Phase, 4-Wire Phase A Black
delta, center tap Phase B (High) Orange
ground on phase Phase C Blue
coil A-C
480Y/277 Volts Neutral Gray
3-Phase, 4-Wire Phase A Brown
Phase B Orange
Phase C Yellow
M. Neutral or ground wires that terminate in a panelboard and require color tape shall have the
color tape extend at least 6-in from the termination point.
N. Power conductors: Unless otherwise indicated on the Drawings, no splices may be made in the
cables without prior written approval of the Engineer. Where splicing is approved, terminations
shall be die type or set screw type pressure connectors as specified. Splices (where allowed)
shall be die type compression connector and waterproof with heat shrink boot or epoxy filling
for copper conductors # 4 AWG and larger. Splices shall be solderless pressure connectors with
insulating covers for copper conductors # 6 AWG and smaller. Aluminum conductors (where
specified) shall employ terminations and splices specifically designed for aluminum conductors.
O. Control Conductors: Termination on saddle-type terminals shall be wired directly with a
maximum of two conductors. Termination on screw type terminals shall be made with a
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 26 June 2016
maximum of two spade connectors. Splices (where allowed) shall be made with insulated
compression type connectors.
P. Instrumentation Signal Conductors (including graphic panel, alarm, low and high level signals):
terminations same as for control conductors. Splices allowed at instrumentation terminal boxes
only.
Q. Instrumentation cables shall be installed in rigid steel raceways as specified. All circuits shall be
installed as twisted pairs or triads. In no case shall a circuit be made up using conductors from
different pairs or triads. Triads shall be used wherever three wire circuits are required.
R. Terminal blocks shall be provided at all instrument cable junction and all circuits shall be
identified at such junctions.
S. Shielded instrumentation wire, shall be run without splices between instruments, terminal
boxes, or panels.
T. Shields shall be grounded as recommended by the instrument manufacturer and isolated at all
other locations. Terminal blocks shall be provided for inter-connecting shield drain wires at all
junction boxes. Where individual circuit shielding is required, each shield circuit shall be
provided with its own block.
U. Test all 600V wire insulation with a megohm meter after installation and prior to termination.
Make tests at not less than 1000 volts DC. Test duration shall be one minute. Submit a written
test report of the results to the Engineer. Notify Engineer in writing 48 hours prior to testing.
V. Field testing and commissioning shall be done in accordance with the latest revision of the
"Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems"
published by the InterNational Electrical Testing Association (NETA Standard ATS) unless
otherwise modified by this section. Minimum wire insulation resistance shall not be less than
250 Megohms.
3.05 PANELBOARDS
A. Mount boxes for surface mounted panelboards so there is at least 1/2-in air space between the
box and the wall.
B. Connect panelboard branch circuit loads so that the load is distributed as equally as possible
between the phase busses. Record normal base load phase voltages and currents for each phase
and the total neutral current and submit to the Engineer for review.
C. Type circuit directories giving location and nature of load served. Install circuit directories in
each panelboard.
D. Install markers on the front cover of all panelboards which identify the voltage rating. Markers
shall be made of self-sticking B-500 vinyl cloth printed with black characters on an Alert
Orange background, 2-1/4-in high by 9-in wide, Style A as manufactured by W.H. Brady Co.,
or equal.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 27 June 2016
E. Install a 1-in by 3-in laminated plastic nameplate with 1/2-in white letters on a black
background on each panelboard. Nameplate lettering shall be as shown on the Drawings.
Nameplates shall be stainless steel screw mounted.
F. Unless otherwise noted on the Drawings, top of cabinets shall be mounted 6 feet-0-inch above
the floor, properly aligned and adequately supported independently of the connecting raceways.
G. All wiring in panelboards shall be neatly formed, grouped, and identified to provide a neat and
orderly appearance. A typewritten directory card identifying all circuits shall be placed in the
card holder inside the front cover.
H. All panelboards shall be protected from physical damage, water damage, moisture, corrosion,
dirt and dust during construction. Any panelboard judged to be unacceptable by the Engineer
shall be replaced by the Contractor at no additional cost to the Owner.
I. Standard factory testing shall be performed for the equipment furnished under this section and
these tests shall be in accordance with the latest version of NEMA and UL standards. Certified
copies of these tests shall be provided to the Engineer upon request.
J. Field testing and commissioning shall be done in accordance with the latest revision of the
"Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems"
published by the InterNational Electrical Testing Association (NETA Standard ATS-2009)
unless otherwise modified by this section.
3.06 GROUNDING
A. Run grounding electrode conductors in rigid steel conduits. Bond the protecting conduits to the
grounding electrode conductors at both ends. Do not allow water pipe connections to be painted.
If the connections are painted, disassemble them and re-make them with new fittings.
B. Install equipment grounding conductors with all feeders and branch circuits.
C. Bond all steel building columns in new structures together with ground wire in rigid conduit and
connect to the distribution equipment ground bus.
D. Ground wire connections to structural steel columns shall be made with long barrel type one-
hole heavy duty copper compression lugs, bolted through 1/2-in maximum diameter holes
drilled in the column web, with stainless steel hex head cap screws and nuts.
E. Metal conduits stubbed into a motor control center shall be terminated with insulated grounding
bushings and connect to the motor control center ground bus. Bond boxes mounted below motor
control centers to the motor control center ground bus. Size the grounding wire in accordance
with NEC Table 250-122, except that a minimum No. 12 AWG shall be used.
F. Liquid tight flexible metal conduit in sizes 1-1/2-in and larger shall have bonding jumpers.
Bonding jumpers shall be external, run parallel (not spiraled) and fastened with plastic tie wraps.
G. Ground transformer neutrals to the nearest available grounding electrode with a conductor sized
in accordance with NEC Article 250-66.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 28 June 2016
H. Seal exposed connections between different metals with No-Oxide Paint Grade A or equal.
I. Lay all underground grounding conductors slack and, where exposed to mechanical injury,
protect by pipes or other substantial guards. If guards are iron pipe, or other magnetic material,
electrically connect conductors to both ends of the guard. Make connections as specified herein.
J. Care shall be taken to ensure good ground continuity, in particular between the conduit system
and equipment frames and enclosures. Where necessary, jumper wires shall be installed.
K. All grounding type receptacles shall be grounded to the outlet boxes with a No. 12 THW green
conductor connected to the ground terminal of the receptacle and fastened to the outlet box by
means of a grounding screw.
L. Test the grounding system. Resistance to ground testing shall be performed during dry season.
Submit test results in the form of a graph showing the number of points measured (12
minimum) and the numerical resistance to ground.
M. Testing shall be performed before energizing the distribution system.
N. Notify the Engineer immediately if the resistance to ground for any building or system is greater
than five ohms.
3.07 MOTORS
A. Installation
1. Motor Connections: All motors shall be connected to the conduit system by means of a
short section 18-inch minimum of liquid tight conduit unless otherwise indicated. For all
motor connections of No. 4 AWG or larger wire size, the Contractor shall install a
grounding conductor in the conduit and terminate at main conduit box and at the motor
control center or variable frequency drive with approved ground lugs and clamps.
2. Low Voltage: For wire sizes #8 AWG and larger, long barrel tin-plated copper
compression (hydraulically pressed) type connections (Burndy Co., or equal) shall be
installed on the branch circuit wires and the motor leads. Bolted connections shall utilize
products which are rated for vibration applications (bolt, nut and spring washer). All
connections shall be insulated with heavy duty heat shrinkable material (Raychem Corp. or
equal).
B. Tests and Checks
1. The following tests shall be performed on all motors after installation but before putting
motors into service.
a. The Contractor shall megger (1000 volts DC) each motor winding before energizing
the motor, and, if insulation resistance is found to be low, shall notify the Engineer
and shall not energize the motor. The following table gives minimum acceptable
insulation resistance in megohms at various temperatures and for various voltages
with readings being taken after one (1) minute of megger test run.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 29 June 2016
Degrees
Winding Temperature Voltage
F C 115 V. 230 V. 460V.
37 3.9 60 108 210
50 10 32 60 120
68 20 13 26 50
86 30 5.6 11 21
104 45 2.4 4.5 8.8
122 50 1 2 3.7 140 60 0.50 0.85 1.6
b. The Contractor shall check all motors for correct clearances and alignment and for
correct lubrication, and shall lubricate if required in accordance with Manufacturer's
instructions. The Contractor shall check direction of rotation of all motors and reverse
connections if necessary. The correction for wrong rotational direction shall be made
at the motor.
c. All tests shall meet the requirements of, but not be limited to, IEEE 43, 85 and 112.
Efficiency tests for IEEE 112 shall include Method B.
d. The Contractor shall provide to the Engineer a typed list of all motors 1 HP and larger
listing the no load motor current and voltage and the full load current and voltage.
Any phase current imbalance greater than 10% shall be reported to the Engineer.
2. Field testing and commissioning shall be done in accordance with the latest revision of the
"Acceptance Testing Specifications for Electrical Power Distribution Equipment and
Systems" published by the InterNational Electrical Testing Association (NETA Standard
ATS-2009).
END OF SECTION
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15520 - 30 June 2016
THIS PAGE INTENTIONALLY LEFT BLANK
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15860 - 1 June 2016
SECTION 15860
FANS
PART 1 GENERAL
1.01 SCOPE OF WORK
A. Furnish and install all fans and fan accessories as shown on the Drawings, the schedules on the
Drawings, and as specified herein.
B. This HVAC specification is incomplete without the information contained on the Drawings and
in the Schedules on the Drawings.
C. Refer to Section 15500 for additional requirements.
1.02 RELATED WORK
A. HVAC is included in Section 15500.
B. Ductwork and accessories are included in Section 15500.
C. Remote disconnects are included on the Drawings.
1.03 SUBMITTALS
A. Refer to Section 15500.
1.04 REFERENCE STANDARDS
A. Refer to Section 15500.
1.05 QUALITY ASSURANCE
A. Refer to Section 15500.
1.06 DELIVERY, STORAGE AND HANDLING
A. Refer to Section 15500.
1.07 SCHEDULES
A. Fans shall be belt or direct drive, of the type, materials of construction, capacity and
arrangement as described herein and on the schedules. Particular attention must be paid to the
remarks and notes in these schedules. This Section is incomplete without the schedules on the
Drawings.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15860 - 2 June 2016
PART 2 PRODUCTS
2.01 GENERAL
A. The use of a manufacturer's name and model of catalog number is for the purpose of
establishing the standard quality, grade, type, size, physical arrangement, performance
characteristics and availability.
B. Fans shall be factory assembled, complete with fan wheel, fan housing or cabinet, bearings,
drives, drive guard, motor, motor base, unit base and vibration isolators, dampers and bird
screens unless otherwise specified. All fans shall be provided with lugs, brackets or field
supplied devices to allow the fan to be firmly bolted to the structure or fastened to specified
vibration isolators. The lugs, brackets or field supplied devices shall be sized to withstand the
expected seismic loads for the area and type of application. Location of the attachments shall
be based on the equipment being hung or base mounted as shown on the Drawings and the
schedules.
C. All fans shall be statically and dynamically balanced prior to shipment from factory.
D. All fans shall be AMCA certified for air performance and sound ratings tested in accordance
with AMCA 300.
E. Motor shall be selected to be non-overloading for the entire fan curve range and for the
reasonable expected temperature and humidity. Schedule motor sizes are minimum. If a larger
motor is required for the fan proposed, the larger motor shall be provided at no additional cost.
F. All bearings for the fan and motor shall be as defined in Section 15500.
G. Fans shall be assembled with OSHA shaft and motor guards. Provide access for greasing
bearings, tachometer readings of fan and motor speed without removing the cover. Cover shall
be properly ventilated to prevent motor overheating.
H. Ductwork connections to units that require corrosion resistant coatings shall be made with
flanges. Flanges shall be factory drilled before coating. Resilient washers suitable for the
environment shall be used to protect the coating from the bolts in the flange. The use of self-
tapping screws or other fastening methods that will damage the coating are not acceptable.
I. Refer to Section 15500 for noise level requirements.
J. Additional requirements are contained in Paragraph 2.02 for specific fan types and in the
schedules.
K. Section 15500 contains general requirements for vibration isolators, seismic restraints, bearings,
motor drives, and roof curbs. Adhere to those requirements and the specific requirements in this
Section.
L. When bearings are not accessible, extended supply and relief fittings shall be supplied. Both
supply and relief fittings shall terminate in the same location.
M. Provide inlet and outlet screens for fans that are not directly duct connected.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15860 - 3 June 2016
2.02 CENTRIFUGAL ROOF EXHAUST FANS
A. Centrifugal roof exhaust fans shall be furnished with removable discharge safety/bird screen
and inlet safety screen if not directly connected to duct work. Motor and drive shall be located
out of the exhaust air stream. Roof mounted fans shall be installed on existing roof curbs.
Provide neoprene vibration isolation at metal contacts and permanently lubricated, sealed ball
bearings. Bearings shall have an L-50 rating of 200,000 hours. Fan wheel shall be backward
inclined. When spark Fans shall be aluminum construction with spun aluminum drive housing
and shroud unless other materials of construction are specified on the schedule. Manufacturers
shall be Greenheck Fan Co.; Loren Cook Co.; or equal.
PART 3 EXECUTION
3.01 INSTALLATION
A. The fans shall be installed in accordance with the instructions of the manufacturer and as shown
on the Drawings.
B. The Contractor shall not install any equipment or materials until the Owner and Engineer have
approved all submittals. If any equipment or materials are installed prior to approval of the
submittals, it shall be at the Contractor's risk.
C. Ensure that lubricating fluids and greases have been applied according to manufacturer's
recommendations. Contractor shall be responsible for all start-up checks and adjustments and
shall perform them unless they are done by the manufacturer's representative.
D. Provide manufacturer’s representative to inspect fans and supervise start-up of all fans.
E. Field Testing
1. Refer to Section 15990.
END OF SECTION
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15860 - 4 June 2016
THIS PAGE INTENTIONALLY LEFT BLANK
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 1 June 2016
SECTION 15990
TESTING, ADJUSTING, AND BALANCING
PART 1 GENERAL
1.01 SCOPE OF WORK
A. Furnish the necessary labor, materials, instruments, transportation and devices required and test,
adjust and balance the total heating-ventilating-cooling systems. Each as specified and detailed
herein, or as required to cause the systems to perform in accordance with the intent of the
Drawings and this Section. Systems to be tested, adjusted and balanced include all systems
installed by the HVAC Contractor.
B. Testing, balancing and operation of the systems shall be performed by competent and
experienced personnel, having formerly done similar work and whose qualifications and
performance shall be subject to the approval of the Engineer. Test and balance air and water
system and submit testing and balancing reports to the Engineer for review and approval.
Re-balance when required by the Engineer, incorporating all changes and certify the systems
have been tested and balanced to meet specified requirements.
C. The tests shall demonstrate the specified capacities and operation of equipment and materials
comprising the systems. Such tests other than as described herein, which are deemed necessary
by the Engineer to indicate the fulfillment of the Contract, shall be made.
D. When the work includes modifications to existing systems, the entire system including existing
portions shall be rebalanced. Where capacities of existing components are not shown as
changed, the original capacities shall be used for balancing.
E. Data required by this Section shall receive complete approval before final payment is made.
F. If, in the opinion of the Engineer, the Contractor has not, will not, or cannot comply with the
testing, balancing and adjusting requirements of this Section, he may advise the Owner to
employ a qualified firm to perform such work at Contractor's sole expense.
G. Refer to Sections 15500 and 15860 for additional requirements.
H. Refer to the Drawings for additional requirements.
1.02 RELATED WORK
A. Refer to Section 15500.
1.03 SUBMITTALS
A. Submit, in accordance with Division 1, the following:
1. Qualifications and experience information and data as detailed under Paragraph 1.04 below.
2. Proposed testing schedules and procedures.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 2 June 2016
3. Preliminary draft "system" balancing reports as systems are completed and tested.
4. Final systems and Project balancing reports as final system adjustments are made as
systems are accepted by the Owner.
5. All submittals shall contain a statement that Sections 15500, 15990 and all other referenced
Sections have been read and complied with. The certification statement shall be made by
all of the following that are applicable; the Contractor, sub-contractor and the vendor. The
statement shall be an individual statement for each party involved, and shall be included
with every submittal and resubmittal.
B. In general, corrections or comments or lack thereof, made relative to submittals during review
shall not relieve the Contractor from compliance with the requirements of the drawings and
specifications. Submittals are for review of general conformance with the design concepts of the
project and general compliance with the contract documents. The Contractor is responsible for
the final design conforming and correlating all quantities and dimensions, selecting fabrication
processes and techniques of construction, coordinating the work of all trades, and performing
the work in a safe and satisfactory manner.
1.04 QUALITY ASSURANCE
A. Qualifications standards for this work - Affiliation with manufacturers, installing contractors or
engineering firms will not preclude acceptability. Submit qualifications within 60 days after
Contract award. Membership in the AABC or NEBB for air and water testing is required. The
testing balancing contractor shall not be affiliated with the on-site contractors.
B. To perform required professional services, the balancing agency shall have a minimum of two
test-and-balance engineers certified by the AABC or NEBB.
C. This certified test-and-balance engineer shall be responsible for supervision and certification for
the total work specified herein.
D. The balancing agency shall submit records of experience in the field of air and hydronic system
balancing or any other data as requested by the Engineer. The supervisory personnel for the firm
shall have at least 5 years’ experience and all the employees used in this project shall be
qualified technicians in this specific field.
E. The balancing agency shall furnish all necessary calibrated instrumentation to adequately
perform the specified services. An inventory of all instruments and devices in possession of the
balancing agency may be required by the Engineer to determine the balancing agency's
performance capability.
1.05 ENGINEERING SERVICES
A. When engineering services are specified to be provided by the Contractor, the Contractor shall
retain a licensed professional engineer to perform the services. The engineer shall be licensed at
the time the work is done and in the State in which the project is located. If the State issues
discipline specific licenses, the engineer shall be licensed in the applicable discipline. In
addition, the engineer shall be experienced in the type of work being provided.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 3 June 2016
B. All work is to be done according to the applicable regulations for professional engineers, to
include signing, sealing and dating documents. When submittals are required by a professional
engineer, in addition to state required signing and sealing, a copy of the current wallet card or
wall certificate indicating the date of expiration shall be included with the submittal.
1.06 SCHEDULE AND PROCEDURES
A. A complete schedule of balancing procedures for each of the buildings or systems shall be
submitted in sufficient time in advance so that the Engineer might arrange to observe these
procedures as they progress. Before commencing with the balancing of the systems submit the
methods and instruments proposed to be used to adjust and balance the air and water systems.
B. Submit proposed testing programs at least 2 weeks prior to the scheduled test to assure
agreement as to personnel and instrumentation required and scope of each testing program.
1.07 DRAWING REVIEW
A. The balancing organization shall thoroughly review the location of all fresh air dampers, return
dampers, spill dampers, quadrant dampers, splitter dampers, bypass dampers, face dampers, fire
dampers, registers, grilles, diffusers, VAV boxes, troffers, etc. The purpose of the review is to
finalize the optimum locations for dampers, test ports and balancing valves shown on the
Drawings.
1.08 EQUIPMENT CURVES
A. Fan Characteristics Charts: The HVAC and General Contractors shall provide to the Balancing
Organization any required characteristic curve charts for all fans to include air conditioning
units and air handling units. Characteristic curve charts shall be not less than 8-1/2-in by 11-in
and shall show the static pressure, capacity horsepower and overall efficiency for operating
conditions from no load to 130 percent of specified load. The minimum size of the actual fan
curve shall be no less than 6-in by 8-in. The use of faxed copies of curves is not acceptable.
1.09 GUARANTEE
A. The balancing work shall be guaranteed to be accurate and factual data, based on readings in the
field. All typewritten data shall be submitted within 14 working days of the performance of the
test. Test data shall not be held until final completion, but shall be submitted on an interim basis
as soon as the test or appropriate groups of tests are finished.
PART 2 PRODUCTS
2.01 MATERIALS
A. Furnish gaskets, lubricants and other expendable materials required to be replaced during the
execution of this work.
B. Fixed-pitched pulleys required for fan adjustments shall be furnished on an exchange basis by
the party responsible for the fan installation.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 4 June 2016
C. Where test results indicate that air quantities at any system fan are below or in excess of the
specified amount, the HVAC and General Contractors, at their own expense, shall change
driving pulley ratio or shall make approved changes to obtain the specified or scheduled air
quantities.
D. Testing apparatus: Furnish plugs, caps, stops, valves, pumps, compressors, blowers and similar
devices required to perform this work.
1. Furnish anemometers, thermometers, gauges, voltmeters, ammeters, lachometers and
similar instruments, not part of the permanent installation, but required to record the
performance of the equipment and systems.
2. Testing apparatus, not part of the permanent installation, shall remain the property of the
Contractor, but made available to the Engineer.
3. Instruments used for testing shall be certified accurate to within plus or minus 0.10 degrees
F for temperature or plus or minus 0.10-in wc for pressure. Calibration of the instruments
shall be done within 7 days of testing for this project and henceforth every 30 days
thereafter for the duration of the testing period. Certification of calibration shall be
submitted to the engineer prior to starting the work.
2.02 TESTING REPORTS
A. Forms: Furnish test report data on 8-1/2-in by 11-in bond AABC or NEBB form paper in
accordance with Division 1. Submit format for recording data and receive approval prior to use.
B. Reports shall be excel spread sheets format and shall be submitted in both hard copy and as a
data file.
C. The report shall contain the following general data in a format selected by the balancing agency:
1. Project number
2. Contract number
3. Project title
4. Project location
5. Project architect
6. Project mechanical engineer
7. Test and balance agency
8. Test and balance engineer
9. General contractor
10. Mechanical subcontractor
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 5 June 2016
11. Dates tests were performed
12. Certification
D. At a minimum, the report shall include:
1. Preface. A general discussion of the systems, any abnormalities and problems encountered.
2. Instrumentation list. The list of instruments including type, model, manufacturer, serial
number and calibration dates.
3. System Identification. In each report, the VAV boxes, zones, supply, return and exhaust
openings and traverse points shall be numbered and/or lettered to correspond to the
numbers and letters used on the report data sheets and on the report diagrams.
E. Prepare 11-in by 17-in single line diagrams or 12-in by 18-in half size drawings showing all
duct systems indicating all terminal air outlets including diffusers, grilles and registers,
perforated plates, nozzles and other types of air supply, exhaust or return outlets. The minimum
scale for diagrams showing the measurement points shall be 1/8-in=1-ft-0-in in the final form as
submitted. The use of faxed copies of diagrams is not acceptable. Location of test points shown
on the diagrams shall be clear and easy to locate on the diagram. The identification mark of the
test points shall be the same as is shown on the test report showing the test data. The
identification for test points shall include indication of the units served, and shall not have a
duplicate in the project. All supply outlets shall be adjusted so that there are no drafts. Grille
and register readings may be made by a vane anemometer, but diffuser readings shall be made
by a flow hood or a velometer, using the tip recommended by the diffuser manufacturer. Each
test sheet shall include the following data:
1. Job name and address.
2. Name of HVAC Contractor.
3. Name of balancing organization.
4. Instruments used to perform the test.
5. Name of test technician or test engineer.
6. Fan system and/or zone number.
7. Room number or area name.
8. Size of outlet.
9. Type outlet.
10. Manufacturer of outlet.
11. The cfm at each outlet on system and corresponding cfm at each outlet as noted on the
plans.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 6 June 2016
12. Percent deviation of the measured flow versus the design flow.
13. Indication of the branch and terminal that are the open/low that are the basis for balancing
the remainder of the system
PART 3 EXECUTION
3.01 START OF BALANCING
A. The General Contractor shall notify the Balancing Organization and Engineer when systems
become operational and ready for preliminary and final testing, adjusting and balancing.
B. Final balancing shall not begin until system has been installed complete and is capable of
normal operation. Provide personnel to assist in rough balance and calibration.
C. All grilles, dampers, fans, coils, pumps, valves and linkages shall be verified to be installed and
operating.
D. System shall be capable of operating under control as specified on Drawings and/or contained
herein.
E. Visually inspect all fire dampers on branch take-offs to each floor to ensure that they are fully
open.
F. Verify with straight edge that fan and motor shafts are parallel and that sheaves are in proper
alignment.
G. Verify that belts are properly tensioned when unit is operating with no excessive squeal at
startup. If not correct, adjust sheaves or motor base accordingly.
H. Start fans and verify that rotation is correct. If rotation is incorrect coordinate with electrical
contractor to switch power leads such that the motor rotates correctly.
I. Check nameplate voltage on motor, compare to scheduled voltage. Notify the Engineer
immediately of any discrepancies. Measure and record actual voltage across all power leads.
Notify the Engineer of discrepancies immediately.
J. Check motor nameplates full load amps, measure and record amperage across all power leads. If
there are marked discrepancies in amperage draws between legs, notify the Engineer immediately.
K. Measure and record fan and motor rpm. Check that motor rpm agrees with nameplate and
scheduled rpm.
L. If, upon commencing the work, the balancing contractor finds that the systems are not ready, or
if a dispute occurs as to the readiness of the systems, the balancing agency shall request an
inspection to be made by the Engineer. This inspection shall establish to the satisfaction of the
represented parties whether or not the systems meet the basic requirements for testing and
balancing. Should the inspection reveal the notification to have been premature, all costs for the
inspection and work previously accomplished by the balancing agency shall be paid for by the
General Contractor. Furthermore, such items that are not ready for testing and balancing shall
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 7 June 2016
be completed and placed in operational readiness before testing and balancing services shall be
recommenced.
M. Leaks, damage and defects discovered or resulting from startup, testing and balancing shall be
repaired or replaced to like-new condition with acceptable materials. Tests shall be continued
until system operates without adjustments or repairs.
3.02 REQUIRED ACCURACY
A. Systems shall be balanced to be within the following limits of the capacity shown on the
Drawings. Limits shall be applied to both individual components and to the system totals.
1. General Systems (plus/minus 10 percent)
3.03 TESTING
A. HVAC Air Systems (Air Handling Units, Packaged Roof Top Units, Supply Fans, and Exhaust
Fans)
1. Balance the supply return and exhaust air systems in accordance with AABC or NEBB
Standards by the use of direct reading instruments such as an "anemotherm" or velometer
which has been properly calibrated.
2. Temporarily add static pressure to the system, to simulate the effect of dirty filters, by
blanking off portions of the filter section, covering filter section with cheesecloth or other
suitable means. Confirm static has been added with new static pressure reading across fan.
Remove cheesecloth, etc., after traverses are complete.
3. If so instructed by the Engineer, further balancing of temperature shall be made either by
thermometer or by temperature recorder.
4. The sequence of air balancing shall be as follows:
a. First, establish air flow quantity at supply fan by main duct traverse.
b. Next, establish air flow quantities in main ducts and branches.
c. Finally, establish air flow quantities at outlets, using proportional balancing among
branch outlets. All multiple opening systems shall be left with at least one "open low"
inlet or outlet, to which all other system openings shall be proportionally balanced.
The "open low(s)" on each system shall be indicated in the report.
d. Grille and register readings may be made by a vane anemometer, but diffuser readings
shall be made by a flow hood or a velometer using the tip recommended by the
diffuser manufacturer. All supply outlets shall be adjusted so that there are no drafts.
e. After all outlets are adjusted to within the tolerances specified elsewhere in this
Section, remeasure all system outlets, and retraverse all branch and main ducts to
establish final "as balanced" flows.
f. All main air ducts shall be traversed, using a Pitot tube and manometer. The
manometer shall be calibrated to read two significant figures in all velocity pressure
ranges. The static pressure reading at the traverse point shall be recorded for each
successive traverse.
1) A main duct is defined as either of the following:
a) A duct serving five or more outlets.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 8 June 2016
b) A duct serving two or more branch ducts.
c) A duct emanating from a fan or plenum.
2) All other ducts are branch ducts.
3) The intent of this operation is to measure by traverse, the total air quantity
handled by the fan and to verify the distribution of air to zones and to adjust
system pressure to minimum level required to satisfy the farthest air outlet.
g. Adjust fan speeds if results of system capacity tests are not within tolerances specified
and repeat Paragraphs 3.03.A.4.c, d, and e above, as required.
h. Mark all final balancing damper positions with a permanent marker.
5. Furnish data in excel spread sheet format tabulating the following:
a. Opening number, type, size and design flow rate.
b. Quantity of air in cfm at each air outlet and inlet.
c. Dry and wet bulb temperature in each room.
d. Dry and wet bulb temperature of the supply air.
e. Dry and wet bulb temperature of the return air.
f. Outdoor dry and wet bulb temperature at the time the above tests are conducted.
g. Total, sensible, and latent capacity in BTUH.
6. Adjust belts, sheaves and the alignment of air handling equipment.
7. Where various combinations of sheaves must be installed on fan systems to achieve the
correct air delivery, change the sheaves and continue to take successive readings until the
correct combinations are installed.
8. Furnish data in excel spread sheet format taken at each air moving device, to include fans,
packaged units and air handling units, tabulating the following:
a. Manufacturers, model number and serial number of units.
b. All design and manufacturer's rated data.
c. Total quantity of supply air in cfm.
d. Total quantity of return air in cfm.
e. Total quantity of exhaust or relief air in cfm.
f. Total quantity of outside air in cfm.
g. Outlet velocity - fpm.
h. The rpm of each fan or blower.
i. Maximum tip speed - fpm.
j. The rpm of each motor.
k. Voltage and ampere input of each motor (one reading for each phase leg on 3 phase
motors).
l. Pressure in inches w.g. at inlet of each fan or blower.
m. Pressure in inches w.g. at discharge of each fan or blower.
n. Pressure drops across system components such as louvers, filters, coils and mixing
boxes.
o. Submit the actual fan operating point on a copy of the fan shop drawing showing
operating curve.
p. List the following data from all fan motors installed.
1) Manufacturer model and size.
2) Motor horsepower, service factor and rpm.
3) Volts, phases, cycles and full load amps.
4) Equipment locations.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 9 June 2016
q. Pressure in inches w.g. at inlet to unit cabinet.
r. Pressure in inches w.g. at discharge from unit cabinet.
s. Outdoor air and return air damper position.
B. Heat Pump Units and Condensing Units
1. Furnish typewritten data, tabulating as follows:
a. Manufacturer, model number, size and serial number of all units.
b. All design and manufacturer's rated data.
c. Suction and condensing temperatures, and pressures.
d. Temperatures of entering and leaving air.
e. Voltage and ampere input of motors under full load (one for each phase leg).
f. Total, sensible, and latent capacity in BTUH.
C. Heating Coils (Packaged Roof Top Unit Electric Heaters)
1. Furnish typewritten data tabulating the following:
a. Manufacturer and model number.
b. All design and manufacturer's rated data.
c. Actual operating current and voltage for all legs.
d. Coil location and identification.
e. Dry bult inlet and outlet coil temperatures.
f. Number of stages.
g. Air flow in CFM.
h. Face area in square feet.
i. Capacity in BTUH.
D. Existing Systems
1. The entire existing system shall be rebalanced using the procedures defined herein.
2. Capacities shall be as shown on the Drawings or if not shown, capacities shown on existing
system drawings, if available, shall be used.
3. Existing systems shall include:
a. Air Conditioning System – AHU/ACCU-4.
b. Fume Hood Supply Fan SF-1 and Fume Hood Exhaust Fan EF-8.
c. Canopy Hood Exhaust Fan EF-9.
d. Laboratory Storage Room Exhaust Fan EF-6.
e. Laboratory Pressurization Fan SF-2.
3.04 FINAL ACCEPTANCE
A. At the time of final inspection, the balancing agency shall recheck, in the presence of the
Engineer, specific and random selections of data recorded in the certified test-and-balance
report.
B. Points and areas for recheck shall be selected by the Engineer.
C. Measurements and test procedures shall be the same as the original test and balance.
© 2016 CDM Smith City of Florence, SC
All Rights Reserved Pee Dee River Water Treatment Plant – HVAC Replacement
ISSUED FOR BID
8385-111145 15990 - 10 June 2016
D. Selections for recheck, specific plus random, shall not normally exceed 15 percent of the total
number tabulated in the report, except where special air systems require a complete recheck for
safety reasons.
E. If the specific rechecks are more than 5 percent deviation from the report or specified flows, all
of the systems, that require specific recheck, shall be rebalanced. If 5 percent or 5 of the random
checks, whichever is less, exceeds a 10 percent deviation from the specified flows, the report
shall be rejected. In the event the report is rejected, all systems shall be readjusted and tested,
new data recorded, a new certified test-and-balance report submitted, and a new inspection test
made, all at no additional cost to the Owner.
END OF SECTION